CN107192585A - A kind of microkinetic rain dirt acquisition system - Google Patents

Abstract

The invention discloses a kind of microkinetic rain dirt acquisition system, belong to precipitation depositing dust collection field.The present invention includes water acquisition case, timesharing catch tray, sample storage bottle, rainfall inductor and controller, water acquisition box top opening is provided with removable cover, water tank bottom is adopted provided with collecting pipe, collecting pipe bottom is located in rotation dish and is connected with connecting tube, it is spaced apart on timesharing catch tray and is in charge of hole provided with multiple, rotation dish is driven by the first actuating unit to be rotated and the water side of connecting tube is alignd one by one with being in charge of hole corresponding matching, is in charge of on hole and is connected with sampling pipe, the water side of sampling pipe is stretched into sample storage bottle.The present invention overcomes the shortcomings of that rainfall sampler Sample storage effect is not good in the prior art, influence testing result, automatic data collection and detection can be carried out to precipitation for a long time, and pollution sources are effectively isolated, largely ensure that rainwater sample is undistorted, improve the degree of accuracy of rain sample analysis.

Description

A kind of microkinetic rain dirt acquisition system

Technical field

The present invention relates to precipitation depositing dust acquisition technique field, more specifically to a kind of microkinetic rain dirt acquisition system.

Background technology

In today of industrial fast development, people pay attention to and studied the quality of rainwater more closely, are that this need to be gathered largely Rainwater physics and chemistry research is carried out to it.It is to be deposited to ground from air during rainfall (snow) to analyze to study precipitation and depositing dust Main composition, property and the content about component of the precipitum of ball surface, to analyze atmospheric analysis State of Air pollution and carrying The latent of contamination control approach, method offer basic data and foundation, the particularly ecosystem such as acid rain soil, forest and lake is provided In harm and to the corrosiveness of implements, material.Atmospheric precipitation monitoring is analysis State of Air pollution, and controlling soil moist provides basis Data and data.

In order to ensure the quality of rainwater sample and the accuracy of data and continuity, the end of the seventies, each industrially developed country, Such as the U.S., Japan, Canada successively develop automatic sampler for rain-water, and China starts late.China rainfall sampler is ground System is started in the seventies in last century, has done many work in terms of the development and production of sampler, has achieved larger development, There are a variety of automatic rainfall monitor products to come out, domestic existing nearly 20 of manufacturing enterprise spreads all over the country, and can substantially meet market Demand.To the statistics in the end of the year in 2003, China's acid rain monitoring network has set more than 200 monitoring point altogether, wherein overwhelming majority monitoring What site was used is all domestic equipment, and only small part uses japanese product, domestic equipment on sampling principle with foreign countries It is similar with quasi-instrument, but also there is a certain distance in production technology and product quality, due to unsuitable sampling side Method and analysis method so that the air pollution data and data of many early stages is insecure.

Through retrieval, disclosed on the existing patent of technology that precipitation depositing dust is gathered, such as Chinese Patent Application No.： 2009100895881, the applying date：On July 22nd, 2009, invention and created name is：Full-automatic depositing dust collector acquisition method, should Application case discloses a kind of full-automatic depositing dust collector and acquisition method, and the collector of this application case, can be certainly without extraneous electricity Dynamic collection, records related data, but be only applicable to be acquired atmospheric falling dust automatically, it is impossible to carry out sampling analysis to precipitation.

And for example Chinese Patent Application No.：2013105823528, the applying date：On November 20th, 2013, invention and created name For：A kind of field precipitation dustfall sampler, this application case discloses a kind of field precipitation dustfall sampler, and this application case overcomes The deficiency such as general sampler volume is big, weight is big, power requirement is high, high precipitation water induction device is fragile, also can be used outside, But this application case does not have good preservation safeguard procedures for collection sample, introduced contaminants and microorganism etc. can enter influence sample Quality, and this application case can only be to a rainfall piecewise acquisition, and multiple rainfall can not respectively be gathered, it is difficult to adapt to field long Phase uses.

For another example Chinese Patent Application No.：2014108522673, the applying date：On December 31st, 2014, invention and created name For：A kind of sealing sampling apparatus for being used to collect rainfall, this application case discloses a kind of sealing sampling cartridge for being used to collect rainfall Put, but this application case does not have good preservation measure, the follow-up measurement work of influence equally to sample, and also device power consumption is big Rainwater can not be repeatedly collected when using in the wild, it is difficult to adapt to field long-term use.

The content of the invention

1. the invention technical problem to be solved

It is an object of the invention to overcome in the prior art rainfall sampler field be difficult to long-term power supply, sample amount not Foot, preservation effect be not good, influences a kind of the not enough there is provided microkinetic rain dirt acquisition system of testing result, can in the wild certainly Dynamic power supply, can carry out automatic data collection and detection to precipitation for a long time, and be effectively isolated pollution sources, largely ensure rainwater Sample is undistorted, improves the degree of accuracy of rain sample analysis.

2. technical scheme

To reach above-mentioned purpose, the technical scheme that the present invention is provided is：

A kind of microkinetic rain dirt acquisition system of the present invention, including water acquisition case, timesharing catch tray, sample storage bottle, rainfall sensing Device and controller, rainfall inductor is outside water acquisition case and is electrically connected with the controller, and water acquisition box top opening is provided with removable cover, Water tank bottom is adopted provided with collecting pipe, collecting pipe bottom is located in rotation dish and is connected with connecting tube, is spaced on timesharing catch tray Offer it is multiple be in charge of hole, rotation dish is driven by the first actuating unit to be rotated and makes the water side of connecting tube one by one with being in charge of hole pair Alignment should be coordinated, be each in charge of on hole and be connected with sampling pipe, the water side correspondence of many sampling pipes is stretched into multiple sample storage bottles.

Further, in addition to dirt case is adopted, adopts dirt case and be disposed adjacent with water acquisition case, adopted dirt box top provided with filter screen, adopt The removable cover of tank top is driven by the second actuating unit to be rotated, and alternately covers adopting above dirt case or water acquisition case respectively.

Further, in addition to water tank, tank top is provided with tank lid, and water tank is connected with water acquisition case, tank lid and work Dynamic cap upper surface is equipped with solar panel.

Further, water acquisition upper box part is provided with one-level filter screen, and the bottom water side of water acquisition case is respectively equipped with the first water outlet Provided with two grades of microfiltration membranes at the top of pipe and collecting pipe, collecting pipe, collecting pipe bottom is provided with blower fan, and the micro-pore diameter of two grades of microfiltration membranes is 0.2~0.45um.

Further, timesharing catch tray is a hollow disk body with the end, in the circumferential side wall of timesharing catch tray circumferentially Uniform intervals offer it is multiple be in charge of hole, timesharing collector tray bottom is provided with the 3rd outlet pipe；Rotation dish is received to coordinate located at timesharing Disk body in catch basin, collecting pipe is extended to inside rotation dish and is connected with connecting tube, and connecting tube is inside rotation dish to close to side Wall direction is extended laterally and stretched out outside the wall of rotation dish side, and rotation dish is driven by the first actuating unit to be rotated and make going out for connecting tube Water end (W.E.) aligns with being in charge of hole corresponding matching one by one, and the pipe diameter of connecting tube is not more than the diameter for being in charge of hole.

Further, the open top end of sample storage bottle is provided with protective cover, and sampling pipe is through protective cover and stretches into sample storage bottle Three-level microfiltration membranes are provided with portion, the water side of sampling pipe, sample storage bottle side wall upper part is provided with spiral overflow pipe.

Further, the bottom water side sectional dimension of water acquisition case is tapered successively from top to bottom.

Further, it is in charge of below hole and is provided with containment flaps, containment flaps bottom connects with being in charge of bottom hole wall, and leakproof The both sides of catch, which are highly gradually increasing to be looped around, is in charge of hole both sides, along the direction containment flaps height that disk center is collected close to timesharing It is gradually increasing.

Further, connecting tube is gradually reduced along the direction height away from collecting pipe, and the water side of connecting tube is to cut The tapered taper type of face size.

Further, including sampler body, acquisition zone, control zone and storage are followed successively by up and down in sampler body Area, rainfall inductor is outside the side wall of sampler body, and wherein water acquisition case is mutually adjacent on the chassis of acquisition zone with monitoring case, Controller and timesharing catch tray are on the chassis of control zone, and sampling pipe is extended downwardly into sample storage bottle through control zone chassis, sample storage Bottle is provided with drainpipe on storage area chassis below storage area chassis.

3. beneficial effect

The technical scheme provided using the present invention, compared with prior art, with following remarkable result：

(1) a kind of microkinetic rain dirt acquisition system of the invention, takes multi-filtering fidelity to rain sample, passes through one-level Filter screen, two grades of microfiltration membranes, protective cover and three-level microfiltration membranes etc. solve the impurity and microbiological pollution in rainwater, in very great Cheng Ensure that rainwater sample is undistorted, improves the degree of accuracy of rain sample analysis on degree.

(2) a kind of microkinetic rain dirt acquisition system of the invention, by solar electric power supply system come for each actuating unit and Controller etc. provides electric power, is individually powered without extraneous, but solar powered by what is obtained automatically, and supply of electric power is very square Just, it is particularly suitable for being used for a long time in the wild.

(3) a kind of microkinetic rain dirt acquisition system of the invention, can be real by the cooperation of rotation dish and timesharing catch tray Independent collection now is carried out to many precipitation rain samples of different times, does not interfere with each other, is particularly suitable for being used for a long time in the wild.

(4) a kind of microkinetic rain dirt acquisition system of the invention, the open top end of sample storage bottle is provided with protective cover, prevents bottleneck There is impurity entrance, sample storage bottle side wall upper part is provided with spiral overflow pipe, can both ensure the overflow for unnecessary rain sample, help again In preventing rain sample volatilization evaporation etc., the good preservation to rain sample is kept.

(5) a kind of microkinetic rain dirt acquisition system of the invention, adopts dirt case and is disposed adjacent with water acquisition case, water acquisition box top Removable cover is driven by the second actuating unit to be rotated, and alternately covers adopting above dirt case or water acquisition case respectively, adopt dirt case and water acquisition case It is engaged, sample collection can be carried out to atmospheric falling dust and rainfall respectively.

(6) a kind of microkinetic rain dirt acquisition system of the invention, including water tank, is realized to water acquisition case and Ge Yu sample collection tubes Flushing cleaning, prevent the rainwater remained in last gatherer process to the pollution of the rain sample gathered, ensure that sampling is mutual every time Do not disturb.

Brief description of the drawings

Fig. 1 is a kind of structural representation of microkinetic rain dirt acquisition system of the present invention；

Fig. 2 is the structural representation of water acquisition case in the present invention；

Fig. 3 is the structural representation of timesharing catch tray in the present invention；

Fig. 4 is the structural representation of sample storage bottle in the present invention；

Fig. 5 is adopts the structural representation of dirt case in the present invention；

Fig. 6 is a kind of use schematic flow sheet of microkinetic rain dirt acquisition system of the present invention.

Label declaration in schematic diagram：1st, water acquisition case；101st, removable cover；102nd, one-level filter screen；103rd, two grades of microfiltration membranes； 104th, collecting pipe；105th, blower fan；106th, the first outlet pipe；107th, rotation dish；108th, connecting tube；2nd, dirt case is adopted；201st, one-level collection Dirt net；202nd, two grades of dust-collecting nets；203rd, three-level dust-collecting net；3rd, water tank；301st, tank lid；4th, monitoring case；401st, the second outlet pipe； 402nd, hydrostatic sensor；403rd, osculum；5th, rainfall inductor；6th, controller；7th, timesharing catch tray；701st, it is in charge of hole；702、 Containment flaps；703rd, sampling pipe；704th, the 3rd outlet pipe；705th, three-level microfiltration membranes；8th, sample storage bottle；801st, protective cover；802nd, spiral shell Revolve overflow pipe；9th, drainpipe；10th, sampler body；11st, acquisition zone chassis；12nd, control zone chassis；13rd, storage area chassis.

Embodiment

To further appreciate that present disclosure, with reference to accompanying drawing, the present invention is described in detail.

With reference to embodiment, the invention will be further described.

Embodiment 1

As shown in figure 1, a kind of microkinetic rain dirt acquisition system of the present embodiment, including water acquisition case 1, timesharing catch tray 7, storage Sample bottle 8, rainfall inductor 5 and controller 6, the present embodiment use PLC, and rainfall inductor 5 is located at the outside of water acquisition case 1 simultaneously Electrically connected with controller 6, for judge it is outdoor whether rainfall, can specifically use FAL-YG09 type Intelligent rainwater inductors, for The qualitative detection that rainwater whether there is, and electric signal transmission is converted into controller 6；The open top of water acquisition case 1 is provided with removable cover 101, removable cover 101 is rotated by the second actuating unit (other conventional rotary drive mechanisms in such as motor or industry) driving, activity Under the original state of lid 101 (non-rainfall state), removable cover 101 is covered to be covered in the top open part of water acquisition case 1, when rainfall sensing When device 5 senses rainfall, then controller 6 controls the second actuating unit to start, and makes it drive removable cover 101 to rotate water acquisition case 1 Open, start to gather rainfall.

As depicted in figs. 1 and 2, the top of water acquisition case 1 is provided with one-level filter screen 102, and the bottom water side of water acquisition case 1 is respectively equipped with First outlet pipe 106 and collecting pipe 104, the top of collecting pipe 104 is provided with two grades of microfiltration membranes that micro-pore diameter is 0.2~0.45um 103, the bottom of collecting pipe 104 is provided with blower fan 105, the first outlet pipe 106 and collecting pipe 104 and is equipped with control valve.This implementation Rainfall of the example to collection carries out multiple filtration guarantee, the first other impurities by the coarse filtration of one-level filter screen 102 in addition to rainwater, and As shown in figure 1, the top of water acquisition case 1 is using the design of tilting opening, between top cross-section and horizontal plane angle may be designed as 30 °~ 60 °, one-level filter screen 102 further prevents environmental contaminants from being accumulated on one-level filter screen 102 using laying is similarly tilted.Drop Water carries out smart filtering after being filtered through one-level filter screen 102 through two grades of microfiltration membranes 103, and two grades of lower sections of microfiltration membranes 103 are provided with blower fan 105 Negative pressure leaching can be carried out, filter effect is improved, the micropore design of two grades of microfiltration membranes 103 can filter the microorganism in rain sample, Final sample is substantially free of microorganism, ensure that rain sample never degenerates, improve the accuracy of sample detection analysis.

The bottom water side sectional dimension of water acquisition case 1 is tapered successively from top to bottom in the present embodiment, as shown in Fig. 2 being beneficial to The quick filtering that flows down of precipitation, prevents from accumulating；Rain sample after secondary filtration continues to flow through collecting pipe 104, as shown in figure 3, receiving The bottom of collector 104 is located in rotation dish 107 and is connected with connecting tube 108, is spaced apart and is in charge of provided with multiple on timesharing catch tray 7 Hole 701, rotation dish 107 is rotated and made by the first actuating unit (other conventional rotary drive mechanisms in such as motor or industry) driving The synchronous rotary of connecting tube 108, makes the water side of connecting tube 108 be alignd one by one with being in charge of the corresponding matching of hole 701, is each in charge of hole 701 On be connected with sampling pipe 703, the water side correspondence of many sampling pipes 703 is stretched into multiple sample storage bottles 8；Multiple sample storage bottles 8 are set The long-term use that can be realized in the wild is put, can many precipitation individually be carried out with rain sample collection, the first actuating unit and control Device 6 electrically connects and is controlled by it starting, during one rainfall event, and the first actuating unit driving rotation dish 107 rotates and makes connecting tube 108 Synchronous rotary, makes the water side of connecting tube 108 be alignd with being in charge of hole 701, and the pipe diameter of connecting tube 108, which is not more than, is in charge of hole 701 Diameter, rain sample successively through collecting pipe 104, connecting tube 108 and sampling pipe 703 enter sample storage bottle 8 in, rainfall terminates, knot of sampling Beam；Next time during rainfall, the first actuating unit driving rotation dish 107 continues to rotate, make the water side of connecting tube 108 with it is adjacent another One, which is in charge of hole 701, aligns, so that rain sample correspondence is collected into another sample storage bottle 8, is so designed that, can be to many of different times Field precipitation rain sample carries out independent collection, does not interfere with each other, is particularly suitable for being used for a long time in the wild；And the sample storage bottle 8 in the present embodiment , can effectively shading for brown bottle, it is to avoid internal microbial reproduction is grown, and further avoids rain sample distortion.

Specifically, as shown in figure 3, timesharing catch tray 7 may be designed as a hollow disk body with the end in the present embodiment, timesharing is received Circumferentially uniform intervals offer 6 and are in charge of hole 701 and (can set 4~10 points according to the actual requirements in the circumferential side wall of catch basin 7 Pore 701), the bottom of timesharing catch tray 7 is provided with the 3rd outlet pipe 704；Rotation dish 107 is located in timesharing catch tray 7 to coordinate (rotation dish 107 is located in the internal cavities of timesharing catch tray 7 solid body structure when using, and is to show structure by above and below it in Fig. 3 Display), collecting pipe 104, which extends to the inside of rotation dish 107 and coordinated with connecting tube 108, to be connected, and connecting tube 108 is from rotation dish Extend laterally and stretch out outside the side wall of rotation dish 107 to close to lateral wall direction inside 107, the rotation of rotation dish 107 then drives The synchronous axial system of connecting tube 108.It should be noted that collecting pipe 104 and connecting tube 108 can be rotated using fluid universal joint and matched somebody with somebody Close so that when rotation dish 107 drives the rotation of connecting tube 108, collecting pipe 104 still keeps nonrotating state；Also can be by collecting pipe 104 Segmental structure is set to, the top and the bottom stretched among rotation dish 107 positioned at the top of rotation dish 107 connect to rotate, and rotate Bottom and the synchronous axial system of connecting tube 108 of internal gathering pipe 104 are driven when disk 107 is rotated, collecting pipe 104 is located at rotation dish 107 The top of top then keeps nonrotating state, and such a rotation connection design belongs to prior art, will not be described in detail herein.

Connecting tube 108 is gradually reduced along the direction height away from collecting pipe 104 in the present embodiment, and connecting tube 108 goes out Water end (W.E.) is the tapered taper type of sectional dimension, and the tilting design of connecting tube 108 contributes to the quick of rain sample to flow down and with dividing The alignment of pore 701 coordinates, and tapering type design is more conducive to the alignment effect for improving connecting tube 108 and being in charge of hole 701, reduce because Dislocation brings the loss of rain sample, further, is each in charge of the lower section of hole 701 and is provided with containment flaps 702, the bottom of containment flaps 702 Connect with being in charge of the bottom wall of hole 701, and the both sides of containment flaps 702 are highly gradually increasing to be looped around and are in charge of the both sides of hole 701, along close The height of direction containment flaps 702 at the center of timesharing catch tray 7 is gradually increasing, and this flow-guiding type of containment flaps 702 is designed to The leakage of rain sample is effectively reduced, is in charge of even if there is a small amount of rain sample not enter timely and accurately in hole 701, the rain sample for overflowing leakage can Simultaneously final water conservancy diversion remittance is in charge of in hole 701 for of short duration aggregation in containment flaps 702.

As shown in figure 4, the open top end of sample storage bottle 8 is provided with protective cover 801 in the present embodiment, sampling pipe 703 passes through protection Cover 801 is simultaneously stretched into inside sample storage bottle 8, the water side of sampling pipe 703 in provided with three-level microfiltration membranes 705 (micro-pore diameter for 0.2~ 0.45um), the side wall upper part of sample storage bottle 8 is provided with spiral overflow pipe 802.Protective cover 801 further prevents bottleneck from having impurity entrance, The rain sample that 705 pairs of three-level microfiltration membranes eventually enter into sample storage bottle 8 carries out final filtration, ensures the removal of microorganism, it is to avoid rain sample Distortion is gone bad.The setting of spiral overflow pipe 802 can both ensure the overflow for unnecessary rain sample, contribute to prevent rain sample from volatilizing again Evaporation etc., keeps the good preservation to rain sample；And the connectivity part of spiral overflow pipe 802 and sample storage bottle 8 is provided with water seal, spiral overflow Gauze is coated with the outside port of pipe 802, it is to avoid extraneous insect or foreign-matter contamination etc. enter.

The acquisition system of the present embodiment also include monitoring case 4, as shown in figure 1, monitoring case 4 in provided with hydrostatic sensor 402, Conductivity sensor, temperature sensor, the one or more of acidometer, the side wall of monitoring case 4 are provided with the second outlet pipe 401, The top of monitoring case 4 is provided with filter screen, and the bottom of monitoring case 4 is provided with osculum 403.Water acquisition case 1 can carry out independently adopting to multiple rainfall Sample, can subsequently carry out the Accurate Analysis such as composition to sample, and monitoring case 4 is equipped with, and it is right in rainfall to realize The real-time state monitoring of rainfall, such as rainfall, rainwater electrical conductivity, temperature, the real-time monitoring of acid-base property property, with water acquisition case 1, The top of monitoring case 4 also is provided with mobilizable door, and the door can be driven using power motor and be rotated, when non-rainfall state, door Masking prevents pollutant from entering in the top of monitoring case 4, when rainfall inductor 5 senses rainfall, then controller 6 controls the power Motor drives door rotation to open monitoring case 4, and rainfall enters inside monitoring case 4.Removable cover 101 and monitoring case in the present embodiment Use solar panel on the door of 4 tops, the solar panel and other solar components, controller for solar and Battery etc. is used cooperatively, and the present embodiment is by solar electric power supply system come for each actuating unit and controller 6 in the system Deng electric power is provided, individually powered without extraneous, but it is solar powered by what is obtained automatically, supply of electric power is very convenient, especially It is suitably used for a long time in the wild.

Monitoring of the monitoring case 4 to rainfall is as follows in the present embodiment：The side wall of monitoring case 4 is provided with the second outlet pipe 401, bottom Portion is provided with osculum 403 and is connected with drainage pipeline (being provided with valve), and the height of the second outlet pipe 401 is higher than hydrostatic sensor 402 setting height, during rainfall monitoring, when liquid level reaches high level, the valve opening of the second outlet pipe 401 is (by controller 6 Control) discharge rainfall, when liquid level is down to low liquid level, then the valve of the second outlet pipe 401 is closed, due to the drop in monitoring case 4 Rain goes out liquid level when flowing and is being continually changing, and can be regarded as non-constant pressure orifice outflow, and by orifice outflow flow, flowing-out time is accumulated Get and out stream rainwater volume, remaining rainfall is the product of floor space and low liquid level, flowing-out time is then measured by hydrostatic sensor 402 Liquid level be determined by the time of high level to low liquid level, then rainfall is equal to outflow water and surplus water sum so that Determine rainfall.After the completion of rainfall collection, the drainage pipeline valve that bottom drain holes 403 are connected is opened, and discharges bottom ponding. Conductivity sensor, temperature sensor, acidometer in monitoring case 4 will detect that signal is converted to electric signal and real-time storage is to depositing In card storage, the properties of rain sample is obtained record in real time and preserve.Use process and signal conversion storage of each sensor etc. can Realized, will not be repeated here using prior art means.

Embodiment 2

A kind of microkinetic rain dirt acquisition system of the present embodiment, basic be the same as Example 1, further, in the present embodiment Also include adopting dirt case 2, be disposed adjacent as shown in figure 1, adopting dirt case 2 with water acquisition case 1, adopt the top of dirt case 2 provided with filter screen, water acquisition case 1 The removable cover 101 at top is driven by the second actuating unit to be rotated, and alternately covers adopting dirt case 2 or the top of water acquisition case 1 respectively.Adopt dirt Case 2 and water acquisition case 1 are engaged, and atmospheric falling dust and rainfall can be carried out under sample collection, the original state of non-rainfall respectively, living Dynamic lid 101 is covered to be closed on the top of water acquisition case 1, is adopted dirt case 2 and then be open and spills, and atmospheric falling dust is after strainer filtering into adopting In dirt case 2, directly dirt sample can subsequently be taken away and be analyzed；When rainfall inductor 5 senses rainfall, transmit a signal to Controller 6, controller 6 controls the second actuating unit to start, and makes it drive removable cover 101 to rotate and opens water acquisition case 1, removable cover 101 cover and are closed adopting the top of dirt case 2, and water acquisition case 1 starts to gather rainfall.

In the present embodiment adopt dirt case 2 as shown in figure 5, adopt the top of dirt case 2 provided with tilted-putted filter screen (with horizontal plane it Between 30 °~60 ° of angle), prevent dust accretions, more internally be provided with multi-level fine screen pack, including from top to bottom successively be in umbrella Single stage of dust collection net 201, two grades of dust-collecting nets 202 and three-level dust-collecting net 203 that shape taper is set, and single stage of dust collection net 201, two grades of collection The grid aperture of dirt net 202 and three-level dust-collecting net 203 is gradually reduced, and realizes the filtering step by step to dust fall, is removed miscellaneous in air Matter pollutant, ensures that the depositing dust being collected into is not disturbed by impurity and influences its constituent, and the conical design of dust-collecting net can also Effectively area is collected in increase, improves dust catching efficiency.

Embodiment 3

A kind of microkinetic rain dirt acquisition system of the present embodiment, basic be the same as Example 2, further, in the present embodiment Also include water tank 3, as shown in figure 1, the top of water tank 3 is provided with tank lid 301, water tank 3 is connected with water acquisition case 1 (sets water supply line And control valve), water tank 3 is after the collection of each rain sample, for being rinsed cleaning to water acquisition case 1, prevents from gathering next rain sample Impact, and solar panel is similarly provided with tank lid 301, for absorbing solar energy for system power supply.

State when the present embodiment is used as shown in fig. 6, under drying regime by adopt dirt case 2 carry out depositing dust collection, once drop Rain inductor 5 senses rainfall, and controller 6 controls the second actuating unit to start, and makes it drive removable cover 101 to rotate water acquisition case 1 is opened, and removable cover 101 is covered and closed adopting the top of dirt case 2, and water acquisition case 1 starts to gather rainfall, and rainfall is through collecting pipe 104 Enter after negative pressure leaching in connecting tube 108, the water side of connecting tube 108 is in charge of hole 701 with one and alignd, and sampled pipe 703 is most Enter eventually in sample storage bottle 8, after the collection water level for reaching sample storage bottle 8, the unnecessary overflow of rainfall spiral overflow pipe 802, rainfall terminates Afterwards, the blower fan 105 of the bottom of the control water acquisition of controller 6 case 1 is closed, and the valve on the first outlet pipe 106 is opened, and unnecessary rainfall is straight The late gate that runs in is closed；Meanwhile, after rainfall terminates, controller 6 controls the first actuating unit driving rotation dish 107 to rotate, and makes The water side of connecting tube 108 be located at two it is adjacent be in charge of between hole 701, the residual rain sample in collecting pipe 104 is discharged through connecting tube 108 Discharged into timesharing catch tray 7, and finally through the 3rd outlet pipe 704.Similarly, after the discharge of residual rain sample, the control water tank of controller 6 Control valve in 3 is opened, and the clean water in water tank 3 enters in water acquisition case 1 through water supply line, successively through collecting pipe 104, connecting tube 108 and the 3rd outlet pipe 704 discharge, be achieved in the flushing to water acquisition case 1 and Ge Yu sample collection tubes cleaning, prevent the last time from adopting The rainwater remained during collection ensures that sampling is not interfere with each other every time to the pollution of the rain sample gathered；Rinse after certain time, then Control valve is closed in water tank 3, and one time rain sample gatherer process terminates, and controller 6 controls the second actuating unit to start, and its driving is lived Dynamic lid 101 rotates covers removable cover 101 in the top of water acquisition case 1 again, and will adopt dirt case 2 and open carry out dust.When rainfall sense When answering the device 5 to sense rainfall again, then ibid, controller 6 controls the first actuating unit driving rotation dish 107 to rotate to principle, makes The water side of connecting tube 108 is in charge of hole 701 with another adjacent and alignd, and rain sample is then collected into another sample storage bottle 8, is received After collection is finished, rotation dish 107 continues to rotate, and the water side of connecting tube 108 is in charge of hole 701 with this and staggers, and carries out draining and flushing Stage.The present embodiment by timesharing catch tray 7 uniform intervals connect many sampling pipes 703, and rotated by rotation dish 107 The water side of connecting tube 108 is alignd one by one with being in charge of hole 701, can complete to collect the independence of multiple rainfall, and sampling As a result non-interference influence, is particularly suitable for field long-term use, and multiple sample storage bottles 8 stop automatic work after the completion of sampling.

Embodiment 4

A kind of microkinetic rain dirt acquisition system of the present embodiment, basic be the same as Example 3, further, as shown in figure 1, The acquisition system of the present embodiment uses multi-layer structure design, specifically includes sampler body 10, in sampler body 10 up and down according to It is secondary be acquisition zone, control zone and storage area, rainfall inductor 5 located at sampler body 10 side wall outside, wherein monitoring case 4, Adopt dirt case 2, water acquisition case 1, water tank 3 to be mutually adjacent on acquisition zone chassis 11 successively, the open top of sampler body 10, which is also used, inclines Inclined is designed, and angle is 30 °~60 ° between horizontal plane, and tilting not only contributes to increase its solar panel on surface Daylighting area, be more conducive to avoid environmental contaminants from being deposited on surface, if especially field is in use, there is dry branches and fallen leaves to fall The top of sampler body 10, can also slide with deadweight or under wind effect.Controller 6 and timesharing catch tray 7 are located at control On area chassis 12, the collecting pipe 104 of the bottom of water acquisition case 1 gos deep into rotation dish 107 through acquisition zone chassis 11, and sampling pipe 703 is then Extended downwardly into through control zone chassis 12 in sample storage bottle 8, sample storage bottle 8 is embedded on storage area chassis 13, the 3rd outlet pipe 704 is worn Storage area chassis 13 is crossed to discharge rainfall and moisture outside sampler body 10, and the lower section of storage area chassis 13 is provided with drainpipe 9, Accidentally entered if any moisture still can carry out draining by drainpipe 9, it is to avoid its internal ponding.The hierarchy of the present embodiment is not only It is easily installed, it is suitable to carry, also ensure the safe handling of Each part.

Schematical above that the present invention and embodiments thereof are described, the description does not have restricted, institute in accompanying drawing What is shown is also one of embodiments of the present invention, and actual structure is not limited thereto.So, if the common skill of this area Art personnel are enlightened by it, without departing from the spirit of the invention, are designed and the technical scheme without creative Similar frame mode and embodiment, all should belong to protection scope of the present invention.

Claims (10)

1. a kind of microkinetic rain dirt acquisition system, it is characterised in that：Including water acquisition case (1), timesharing catch tray (7), sample storage bottle (8), rainfall inductor (5) and controller (6), rainfall inductor (5) are electrically connected located at water acquisition case (1) outside and with controller (6) Connect, water acquisition case (1) open top is provided with removable cover (101), water acquisition case (1) bottom is provided with collecting pipe (104), collecting pipe (104) Bottom is located in rotation dish (107) and is connected with connecting tube (108), is spaced apart and is in charge of provided with multiple on timesharing catch tray (7) Hole (701), rotation dish (107) is driven by the first actuating unit to be rotated and makes the water side of connecting tube (108) one by one with being in charge of hole (701) corresponding matching is alignd, and is each in charge of on hole (701) and is connected with sampling pipe (703), the water side of many sampling pipes (703) Correspondence is stretched into multiple sample storage bottles (8).

2. a kind of microkinetic rain dirt acquisition system according to claim 1, it is characterised in that：Also include adopting dirt case (2), adopt Dirt case (2) is disposed adjacent with water acquisition case (1), adopt the removable cover (101) that is provided with the top of dirt case (2) at the top of filter screen, water acquisition case (1) by The driving rotation of second actuating unit, alternately covers adopting above dirt case (2) or water acquisition case (1) respectively.

3. a kind of microkinetic rain dirt acquisition system according to claim 1, it is characterised in that：Also include water tank (3), water tank (3) top is provided with tank lid (301), and water tank (3) is connected with water acquisition case (1), tank lid (301) and removable cover (101) upper surface It is equipped with solar panel.

4. a kind of microkinetic rain dirt acquisition system according to claim 1, it is characterised in that：Water acquisition case (1) top is provided with One-level filter screen (102), the bottom water side of water acquisition case (1) is respectively equipped with the first outlet pipe (106) and collecting pipe (104), collects Manage provided with two grades of microfiltration membranes (103) at the top of (104), collecting pipe (104) bottom is provided with blower fan (105), two grades of microfiltration membranes (103) Micro-pore diameter is 0.2~0.45um.

5. a kind of microkinetic rain dirt acquisition system according to claim 1, it is characterised in that：Timesharing catch tray (7) is one In hollow disk body with the end, the circumferential side wall of timesharing catch tray (7) circumferentially uniform intervals offer it is multiple be in charge of hole (701), Timesharing catch tray (7) bottom is provided with the 3rd outlet pipe (704)；Disk of the rotation dish (107) for cooperation in timesharing catch tray (7) Body, it is internal and be connected with connecting tube (108) that collecting pipe (104) extends to rotation dish (107), and connecting tube (108) is from rotation dish (107) internal to extend laterally and stretch out outside the wall of rotation dish (107) side to close to sidewall direction, rotation dish (107) is moved by first Force mechanisms driving rotates and the water side of connecting tube (108) is alignd one by one with being in charge of hole (701) corresponding matching, connecting tube (108) pipe diameter is not more than the diameter for being in charge of hole (701).

6. a kind of microkinetic rain dirt acquisition system according to claim 1, it is characterised in that：The open top of sample storage bottle (8) End is provided with protective cover (801), and sampling pipe (703) is through protective cover (801) and stretches into sample storage bottle (8) inside, sampling pipe (703) Three-level microfiltration membranes (705) are provided with water side, sample storage bottle (8) side wall upper part is provided with spiral overflow pipe (802).

7. a kind of microkinetic rain dirt acquisition system according to claim 4, it is characterised in that：The bottom of water acquisition case (1) goes out Water end (W.E.) sectional dimension is tapered successively from top to bottom.

8. a kind of microkinetic rain dirt acquisition system according to claim 5, it is characterised in that：It is in charge of below hole (701) and sets There are containment flaps (702), containment flaps (702) bottom connects with being in charge of hole (701) bottom wall, and the both sides of containment flaps (702) Highly it is gradually increasing to be looped around and is in charge of hole (701) both sides, along the direction containment flaps (702) close to timesharing catch tray (7) center Highly it is gradually increasing.

9. a kind of microkinetic rain dirt acquisition system according to claim 5, it is characterised in that：Connecting tube (108) is along remote The direction height of collecting pipe (104) is gradually reduced, and the water side of connecting tube (108) is the tapered taper type of sectional dimension.

10. a kind of microkinetic rain dirt acquisition system according to any one of claim 1~9, it is characterised in that：Including sampling Acquisition zone, control zone and storage area are followed successively by up and down in device body (10), sampler body (10), rainfall inductor (5) is located at Outside the side wall of sampler body (10), wherein water acquisition case (1) is mutually adjacent on acquisition zone chassis (11) with monitoring case (4), control Device (6) processed and timesharing catch tray (7) are on control zone chassis (12), and sampling pipe (703) is downward through control zone chassis (12) Stretch into sample storage bottle (8), sample storage bottle (8) is provided with drainpipe on storage area chassis (13) below storage area chassis (13) (9)。