CN108344846A - One kind being used for Urban Water Environment restoration of the ecosystem real-time monitoring device - Google Patents

Abstract

The invention discloses one kind being used for Urban Water Environment restoration of the ecosystem real-time monitoring device, and structure includes data transmitter structure, connector, supporting rack, solar panels, solar panels holder, real-time monitoring device, it is characterised in that：The insertion of data transmitter structure lower end is mounted on connector and is mutually perpendicular to,It is mutually welded with connector lower end supporting rack upper end,It mutually welds and is mutually perpendicular to real-time monitoring device upper end in supporting rack lower end,There are three solar panels holder is total and it is respectively welded at around supporting rack,There are three solar panels are total and back is welded on solar panels holder,Real-time monitoring device includes the sampling mechanism that draws water,Water quality detection mechanism,Power reserves mechanism,Sample water output mechanism,Anti-overturn mechanism,Monitor shell,The sampling mechanism that draws water mutually is welded with monitor inner surface of outer cover left end,It is of the invention a kind of for Urban Water Environment restoration of the ecosystem real-time monitoring device,The design can monitor quality of water environment in a region in real time,And the real-time Transmission region water quality data,It effectively prevent excessively repairing and leads to Water Eutrophication,The reparation of Urban Water Environment ecology is effectively ensured.

Description

One kind being used for Urban Water Environment restoration of the ecosystem real-time monitoring device

Technical field

The present invention is that one kind being used for Urban Water Environment restoration of the ecosystem real-time monitoring device, belongs to real time monitoring field.

Background technology

Existing real-time monitoring device is usually made of center-side, harvester, tip sensor three parts, tip sensor Power supply, communication rely on the cable that is connected with harvester to complete, each sensor is required for independent single line cable, specifically The general band shielded cable for using RVSP4*1.0 during use, the band shielded cable line footpath is thinner, does not have tension energy Power, it is exposed to be also easy to be damaged and corrode in air, therefore in the construction process, needed between harvester and sensor pre- Steel pipe is first laid, then cable is pierced into steel pipe and is protected.

For the prior art during Urban Water Environment restoration of the ecosystem, be susceptible to excessively to repair to discover leads to water quality not in time Nutrient laden in turn results in recontamination.

Invention content

In view of the deficienciess of the prior art, it is an object of the present invention to provide one kind for Urban Water Environment restoration of the ecosystem it is real-time Monitoring device, with the prior art of solution during Urban Water Environment restoration of the ecosystem, be susceptible to excessively repair discover it is too late When the problem of leading to Water Eutrophication, in turn resulting in recontamination.

To achieve the goals above, the present invention is to realize by the following technical solutions：One kind being used for Urban Water Environment Restoration of the ecosystem real-time monitoring device, structure include data transmitter structure, connector, supporting rack, solar panels, solar panels branch Frame, real-time monitoring device, the insertion of data transmitter structure lower end are mounted on connector and are mutually perpendicular to, support frame as described above Upper end is mutually welded with connector lower end, and support frame as described above lower end is mutually welded and is mutually perpendicular to real-time monitoring device upper end, institute State solar panels holder altogether there are three and be respectively welded at around supporting rack, the solar panels altogether there are three and back be welded on On solar panels holder, the real-time monitoring device includes draw water sampling mechanism, water quality detection mechanism, power reserves mechanism, sample Water output mechanism, anti-overturn mechanism, monitor shell, the sampling mechanism that draws water mutually are welded with monitor inner surface of outer cover left end It connects, the sample water output mechanism is mutually welded with monitor inner surface of outer cover right end, and the water quality detection mechanism is set to sampling of drawing water Mechanism right end, the sample water output mechanism are set to water quality detection mechanism right end, and the sampling mechanism that draws water passes through water quality detection machine Structure is connected with water output mechanism, and the water quality detection mechanism upper end is equipped with power reserves mechanism, the anti-overturn mechanism upper end Embedded to be mounted on monitor shell lower end, the water quality detection mechanism lower end is equipped with anti-overturn mechanism.

Further, the sampling mechanism that draws water connects including the first short strut, the first long fulcrum bar, the first conductor wire, first Receiving end, the first motor, first annular fixed frame, lock plunger, lantern ring, shaft, bevel gear 0, umbrella tooth cam, second are drawn money on credit Bar, the second short strut, fish head wheel, interval wheel disc, sampling pipe, the first pull rod, sealing ring, the first flexible glue head, the first short branch Bar left end is connected by pin with the first long fulcrum bar right end, is fixed by pin among first short strut, described first Long fulcrum bar pin is connected by pin with interval wheel disc upper end, and intermittent wheel end of facing left is bonded with fish head wheel right end, described Fish head wheel left upper end is connected by pin with the second short strut lower end, second short strut.Upper end passes through pin and second Long fulcrum bar upper right side is connected, and second long fulcrum bar lower-left end is fixed by a pin on umbrella tooth cam, the umbrella tooth cam Upper end is meshed with 0 lower end of bevel gear, and the shaft lower end is mutually welded and is mutually perpendicular to 0 upper end of bevel gear, the shaft Upper end is through among lantern ring and being in same axle center, and the shaft upper end insertion is mounted on the first motor lower end and mutually Vertically, the lantern ring upper end insertion is mounted on the first motor lower end, and the lock plunger insertion is mounted on first annular fixed frame Right end and using being threadedly coupled, the first annular fixed frame inner surface is bonded in the first motor outer surface, and described the One receiving terminal lower end is mutually welded with the first motor upper end, and the first conductor wire left end insertion is mounted on the first receiving terminal It right end and is mutually perpendicular to, the first short strut right end is fixed with the first pull rod upper end by pin, under first pull rod End is embedded to be mounted on the first flexible glue head upper end and is mutually perpendicular to, and the first flexible glue head insertion is mounted on sampling pipe, described Pipe lower end insertion of sampling is mounted on sealing ring.

Further, the water quality detection mechanism include detection machine power supplying line, data processing plate, protective shell, at TDS The moisture-proof cylinder of manage bar, TDS, twin-stage reaction head, sample water temporary storage box, detection machine power supplying line lower end handle a upper end with TDS It mutually welds, TDS processing outer surface is bonded with the moisture-proof tube inner surfaces of TDS and is in same axle center, on the moisture-proof cylinders of TDS End is mutually welded and is mutually perpendicular to protective shell lower end, and the data processing plate insertion is mounted on protective shell inner surface, the TDS The insertion of processing upper end is mounted on protective shell lower end and is mutually perpendicular to, the processing upper ends TDS and data processing plate lower end It mutually welds, the insertion of twin-stage reaction head upper end is mounted on the moisture-proof cylinder lower ends TDS and is mutually perpendicular to, under the moisture-proof cylinders of TDS End is embedded to be mounted on sample water temporary storage box upper end and is mutually perpendicular to.

Further, the power reserves mechanism includes the second transmission power cord, accumulator, electric energy importing terminal, output Terminal, the accumulator lower end are mutually welded and are mutually perpendicular to leading-out terminal upper end, and the accumulator upper end is imported with electric energy Terminal lower end is mutually welded and is mutually perpendicular to, the second transmission power cord lower end and electric energy importing terminal upper end mutually weld and It is mutually perpendicular to, the data transmitter structure includes data line, insulation loop bar, and the data line upper end insertion is mounted on Insulation loop bar lower end is simultaneously in same axle center, and the insulation loop bar lower end is through accumulator centre and is mutually perpendicular to.

Further, the sample water output mechanism includes that elliptic gear, positive finger cam, driving belt, nesting tube, third are short Strut, triangle limited block, baffle, the second flexible glue head, the second conductor wire, the second motor 0, the second annular fixing frame, the second lock Tight bolt, collar, shaft, worm screw, convex worm gear, third long fulcrum bar, the second pull rod, the baffle are fixed by a pin to nesting tube On, triangle limited block lower end is mutually welded with stock layout pipe internal surface, and the insertion of second pull rod lower end is mounted on the second flexible glue Head upper end, the second flexible glue head insertion are mounted on nesting tube, and second pull rod upper end passes through pin and third long fulcrum bar Bottom righthand side is connected, and the third long fulcrum bar left upper end is connected by pin with third short strut upper right side, and the third is short Strut lower-left end is fixed by a pin to elliptic gear bottom righthand side, and the elliptic gear upper right side is mutually nibbled with positive finger cam lower-left end It closing, the positive finger cam is connected by driving belt with convex worm gear, and the convex worm gear right end is meshed with worm screw left end, The worm screw upper end is mutually welded and is mutually perpendicular to shaft lower end, and the shaft is through collar centre and is in same axis The heart, the shaft upper end insertion is mounted on 0 lower end of the second motor and is mutually perpendicular to, and second lock plunger passes through the second ring Shape fixed frame is connected with the second motor 0, and the second conductor wire right end insertion is mounted on 0 upper end of the second motor.

Further, the anti-overturn mechanism includes round support plate, splash guard, gravity block, screw thread, the round support Plate lower end is mutually welded and is mutually perpendicular to gravity block upper end, and the gravity block is integrated with screw thread, the splash guard Upper end is bonding with gravity block lower end and is mutually perpendicular to that the splash guard upper end is with round support plate lower end and mutually puts down Row.

Further, the nesting tube lower end insertion is mounted on splash guard, and the sampling pipe lower end insertion is mounted on anti- On water plate, the splash guard upper end insertion is mounted on monitor shell lower end, the gravity block upper end and monitor shell lower end It is threadedly coupled, the leading-out terminal lower end insertion is mounted on monitor shell upper end.

Further, second transmission power cord upper end is mutually welded with solar panels back, the insulation loop bar lower end It is embedded to be mounted on real-time monitoring device upper end and be mutually perpendicular to, the data line upper end and data transmitter structure lower end phase Welding.

Advantageous effect

It is of the invention a kind of for Urban Water Environment restoration of the ecosystem real-time monitoring device, it is converted light energy by solar panels After electric energy, using the second transmission power cord conveying electric energy in power reserves mechanism and electric energy is stored in accumulator, electric power storage Electric energy is supplied respectively to draw water the first motor in sampling mechanism and the data in water quality detection mechanism by pond by leading-out terminal Processing board is used with the second motor in sample water output mechanism, starts work after the first motor connecting power, shaft is made to send out It is born from and turns, the second motor is closed with umbrella tooth cam meshing, and the second motor is mutually welded with shaft, to be passed by the first short strut Movement is passed, the first short strut right end is made to move upwards, drives the first flexible glue head to move upwards by fixed first pull rod of pin, Suction is generated in pipe of sampling, extracts the sample water temporary storage box that a certain amount of sample water enters in water quality detection mechanism, data processing plate Electric energy supply TDS processing items in part are used after energization, twin-stage reaction head contacts the analysis of sample water electrolysis and collects data, passes through TDS Moisture-proof cylinder is transmitted to the processing of data processing plate, by being transmitted simultaneously to data transmitter structure data line in data transmitter structure It is sent to receiving terminal, the second motor starts work after being powered, shaft is made to start to rotate, since worm screw is mutually welded with shaft, band Dynamic worm screw rotation, is meshed by convex worm gear with worm screw, is transmitted and is moved by convex worm gear, third long fulcrum bar is made to move downward, Third long fulcrum bar the second flexible glue head that drive is connected with third long fulcrum bar that is connected with the second pull rod by pin is downward, generates Pressure pushes back the sample water after analysis in water by nesting tube, and baffle can be by water resistance every preventing water inverse when the second flexible glue head backhaul It flows into detection box, the design can monitor quality of water environment in a region in real time, and the real-time Transmission region water quality data, have Effect, which prevents from excessively repairing, leads to Water Eutrophication, and the reparation of Urban Water Environment ecology is effectively ensured.

Description of the drawings

Upon reading the detailed description of non-limiting embodiments with reference to the following drawings, other feature of the invention, Objects and advantages will become more apparent upon：

Fig. 1 is a kind of structural schematic diagram for Urban Water Environment restoration of the ecosystem real-time monitoring device of the invention；

Fig. 2 is a kind of internal structure schematic diagram of real-time monitoring device of the present invention；

Fig. 3 is a kind of inside detailed construction schematic diagram of real-time monitoring device of the present invention；

Fig. 4 is the close-up schematic view of Fig. 3；

Fig. 5 is the close-up schematic view of Fig. 3；

Fig. 6 is the close-up schematic view of Fig. 3；

Fig. 7 is a kind of internal structure schematic diagram of real-time monitoring device of the present invention；

Fig. 8 is the close-up schematic view of Fig. 7.

In figure：Data transmitter structure -1, connector -2, supporting rack -3, solar panels -4, solar panels holder -5, in real time Monitoring device -6, water quality detection mechanism -62, power reserves mechanism -63, sample water output mechanism -64, is prevented the sampling mechanism -61 that draws water Tilting mechanism -65, monitor shell -66, the first short strut -611, the first long fulcrum bar -612, the first conductor wire -613, first connect The -614, first motor -615 of receiving end, first annular fixed frame -616, lock plunger -617, lantern ring -618, shaft -619, umbrella Gear -6110, umbrella tooth cam -6111, the second long fulcrum bar -6112, the second short strut -6113, fish head wheel -6114, interval wheel disc - 6115, the -6116, first pull rod -6117 of sampling pipe, sealing ring -6118, the first flexible glue head -6119, detection machine power supplying line - 621, data processing plate -622, protective shell -623, TDS processing item -624, the moisture-proof cylinders -625 of TDS, twin-stage reaction head -626, sample water Temporary storage box -627, the second transmission power cord -631, accumulator -632, electric energy import terminal -633, leading-out terminal -634, data and pass Defeated line -11, insulation loop bar -12, elliptic gear -641, positive finger cam -642, driving belt -643, nesting tube -644, third are short Strut -645, triangle limited block -646, baffle -647, the second flexible glue head -648, the second conductor wire -649, the second motor - 6410, the second annular fixing frame -6411, the second lock plunger -6412, collar -6413, shaft -6414, worm screw -6415, convex snail Wheel -6416, third long fulcrum bar -6417, the second pull rod -6418, include round support plate -651, splash guard -652, gravity block -653, Screw thread -654

Specific implementation mode

To make the technical means, the creative features, the aims and the efficiencies achieved by the present invention be easy to understand, with reference to Specific implementation mode, the present invention is further explained.

It please refers to Fig.1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7, Fig. 8, the present invention provides a kind of for Urban Water Environment life State repairs real-time monitoring device technical solution：Its structure include data transmitter structure 1, connector 2, supporting rack 3, solar panels 4, Solar panels holder 5, real-time monitoring device 6,1 lower end of the data transmitter structure insertion are mounted on connector 2 and mutual Vertically, 3 upper end of support frame as described above is mutually welded with 2 lower end of connector, 3 lower end of support frame as described above and 6 upper end phase of real-time monitoring device It welds and is mutually perpendicular to, the solar panels holder 5 is total to there are three and is respectively welded at around supporting rack 3, the solar energy There are three plate 4 is total and back is welded on solar panels holder 5, and the real-time monitoring device 6 includes draw water sampling mechanism 61, water Quality detection mechanism 62, power reserves mechanism 63, sample water output mechanism 64, anti-overturn mechanism 65, monitor shell 66, it is described to draw water Sampling mechanism 61 is mutually welded with 66 inner surface left end of monitor shell, the sample water output mechanism 64 and table in monitor shell 66 Face right end mutually welds, and the water quality detection mechanism 62 is set to 61 right end of sampling mechanism that draws water, and the sample water output mechanism 64 is set to 62 right end of water quality detection mechanism, the sampling mechanism 61 that draws water are connected by water quality detection mechanism 62 with water output mechanism 64, 62 upper end of the water quality detection mechanism is equipped with power reserves mechanism 63, and the insertion of 65 upper end of the anti-overturn mechanism is mounted on monitor 66 lower end of shell, 62 lower end of the water quality detection mechanism are equipped with anti-overturn mechanism 65, and the sampling mechanism 61 that draws water includes first It is short strut 611, the first long fulcrum bar 612, the first conductor wire 613, the first receiving terminal 614, the first motor 615, first annular Fixed frame 616, lock plunger 617, lantern ring 618, shaft 619, bevel gear 6110, umbrella tooth cam 6111, the second long fulcrum bar 6112, Two short struts 6113, fish head wheel 6114, interval wheel disc 6115, sampling pipe 6116, the first pull rod 6117, sealing ring 6118, first Flexible glue head 6119,611 left end of the first short strut are connected by pin with 612 right end of the first long fulcrum bar, and described first is short It is fixed by pin among strut 611,612 pin of the first long fulcrum bar is connected by pin with 6115 upper end of interval wheel disc It connects, 6115 left end of interval wheel disc is bonded with 6114 right end of fish head wheel, and 6114 left upper end of fish head wheel passes through pin and Two short struts, 6113 lower end is connected, second short strut 6113.Upper end passes through 6112 upper right side of pin and the second long fulcrum bar It is connected, second long fulcrum bar, 6112 lower-left end is fixed by a pin on umbrella tooth cam 6111, the umbrella tooth cam 6111 Upper end is meshed with 6110 lower end of bevel gear, and 619 lower end of the shaft is mutually welded and is mutually perpendicular to 6110 upper end of bevel gear, 619 upper end of the shaft is through 618 centre of lantern ring and is in same axle center, and the insertion of 619 upper end of the shaft is mounted on first It 615 lower end of motor and is mutually perpendicular to, the insertion of 618 upper end of the lantern ring is mounted on 615 lower end of the first motor, the locking The insertion of bolt 617 is mounted on 616 right end of first annular fixed frame and uses threaded connection, in the first annular fixed frame 616 Surface is bonded in 615 outer surface of the first motor, 614 lower end of the first receiving terminal and 615 upper end phase of the first motor Welding, 613 left end of the first conductor wire insertion is mounted on 614 right end of the first receiving terminal and is mutually perpendicular to, described first 611 right end of short strut is fixed with 6117 upper end of the first pull rod by pin, and 6117 lower end of the first pull rod insertion is mounted on the It one flexible glue head, 6119 upper end and is mutually perpendicular to, the insertion of the first flexible glue head 6119 is mounted on sampling pipe 6116, the pumping 6116 lower end of sample pipe insertion be mounted on sealing ring 6118 on, the water quality detection mechanism 62 include detection machine power supplying line 621, Data processing plate 622, protective shell 623, TDS processing item 624, the moisture-proof cylinders 625 of TDS, twin-stage reaction head 626, sample water temporary storage box 627,621 lower end of detection machine power supplying line is mutually welded with 624 upper end of TDS processing items, and the TDS handles 624 appearance of item Face is bonded and is in same axle center, moisture-proof 625 upper ends of cylinder TDS and 623 lower end of protective shell with moisture-proof 625 inner surfaces of cylinder of TDS It mutually welds and is mutually perpendicular to, the insertion of data processing plate 622 is mounted on 623 inner surface of protective shell, and the TDS handles item The insertion of 624 upper ends is mounted on 623 lower end of protective shell and is mutually perpendicular to, processing 624 upper ends of item TDS and data processing plate 622 lower ends are mutually welded, and 626 upper end of the twin-stage reaction head insertion is mounted on moisture-proof 625 lower ends of cylinder TDS and is mutually perpendicular to, institute Moisture-proof 625 lower end of the cylinder insertions of TDS are stated mounted on 627 upper end of sample water temporary storage box and are mutually perpendicular to, the power reserves mechanism 63 Terminal 633, leading-out terminal 634,632 lower end of the accumulator are imported including the second transmission power cord 631, accumulator 632, electric energy It mutually welds and is mutually perpendicular to 634 upper end of leading-out terminal, 632 upper end of the accumulator imports 633 lower end phase of terminal with electric energy It welds and is mutually perpendicular to, 633 upper end of the second transmission 631 lower end of power cord and electric energy importing terminal is mutually welded and mutually Vertically, the data transmitter structure 1 includes data line 11, insulation loop bar 12,11 upper end of data line insertion peace Mounted in insulation 12 lower end of loop bar and it is in same axle center, 12 lower end of insulation loop bar is through the centre of accumulator 632 and phase Mutually vertical, the sample water output mechanism 64 includes elliptic gear 641, positive finger cam 642, driving belt 643, nesting tube 644, the Three short struts 645, triangle limited block 646, baffle 647, the second flexible glue head 648, the second conductor wire 649, the second motor 6410, Second annular fixing frame 6411, the second lock plunger 6412, collar 6413, shaft 6414, worm screw 6415, convex worm gear 6416, Three long fulcrum bars 6417, the second pull rod 6418, the baffle 647 are fixed by a pin on nesting tube 644, the triangle limited block 646 lower ends are mutually welded with 644 inner surface of nesting tube, and 6418 lower end of the second pull rod insertion is mounted in the second flexible glue head 648 End, the insertion of the second flexible glue head 648 are mounted on nesting tube 644, and 6418 upper end of the second pull rod passes through pin and third 6417 bottom righthand side of long fulcrum bar is connected, and 6417 left upper end of third long fulcrum bar passes through pin and 645 upper right side of third short strut It is connected, 645 lower-left end of the third short strut is fixed by a pin to 641 bottom righthand side of elliptic gear, the elliptic gear 641 Upper right side is meshed with 642 lower-left end of positive finger cam, and the positive finger cam 642 passes through driving belt 643 and convex worm gear 6416 It is connected, 6416 right end of convex worm gear is meshed with 6415 left end of worm screw, under 6415 upper end of the worm screw and shaft 6414 End is mutually welded and is mutually perpendicular to, and the shaft 6414 is through 6413 centre of collar and is in same axle center, the shaft The insertion of 6414 upper ends is mounted on 6410 lower end of the second motor and is mutually perpendicular to, and second lock plunger 6412 passes through the second ring Shape fixed frame 6411 is connected with the second motor 6410, and 649 right end of the second conductor wire insertion is mounted on the second motor 6410 upper ends, the anti-overturn mechanism 65 include round support plate 651, splash guard 652, gravity block 653, screw thread 654, the circle 651 lower end of type support plate is mutually welded and is mutually perpendicular to 653 upper end of gravity block, and the gravity block 653 is integrated with screw thread 654 Change structure, 652 upper end of the splash guard is bonding with 653 lower end of gravity block and is mutually perpendicular to, 652 upper end of the splash guard With 651 lower end of round support plate and be mutually parallel, the insertion of 644 lower end of the nesting tube is mounted on splash guard 652, the pumping The insertion of 6116 lower end of sample pipe is mounted on splash guard 652, and the insertion of 652 upper end of the splash guard is mounted under monitor shell 66 End, 653 upper end of the gravity block are connect with 66 lower thread of monitor shell, and the insertion of 634 lower end of the leading-out terminal is mounted on 66 upper end of monitor shell, second transmission, 631 upper end of power cord are mutually welded with 4 back of solar panels, the insulation loop bar The insertion of 12 lower ends is mounted on 6 upper end of real-time monitoring device and is mutually perpendicular to, and 11 upper end of the data line emits with data Mechanism is mutually welded 1 lower end

Worm screw 6415 described in this patent refers to having one or several helical tooths, and engaged with worm gear and form and interlock The gear of shaft gear pair, reference surface can be cylindrical surface, circular conical surface or anchor ring, there is straight sided axial worm, involute snail Four kinds of bar, straight sided normal worm ZN-worm, milled helicoids worm classifications, 6416 worm mechanism of convex worm gear are commonly used to transmission two It is equivalent to wheel and rack, worm screw and and screw rod in movement between alternating axis and power, worm gear and worm screw therebetween plane Shape is similar, and the gear reduction ratio of worm gear is generally 20:1, sometimes even up to 300:It is 1 or larger.

After carrying out in use, converting light energy into electric energy by solar panels 4, the in power reserves mechanism 63 is used Two transmission power cords 631 convey electric energy and electric energy are stored in accumulator 632, and accumulator 632 will be electric by leading-out terminal 634 The first motor 615 that can be supplied respectively to draw water in sampling mechanism 61 in water quality detection mechanism 62 data processing plate 622 with The second motor 6410 in sample water output mechanism 64 uses, and the first motor 615 starts work after powering on, makes shaft 619 occur rotation, and the second motor 6110 is meshed with umbrella tooth cam 6111, and the second motor 6110 is welded with 619 phase of shaft It connects, is moved to be transmitted by the first short strut 611, so that 611 right end of the first short strut is moved upwards, pass through pin fixed first Pull rod 6117 drive the first flexible glue head 6119 move upwards, generate suction in pipe 6116 of sampling, extract a certain amount of sample water into Enter the sample water temporary storage box 627 in water quality detection mechanism 62, part electric energy is supplied TDS after being powered and handles item by data processing plate 622 624 use, and twin-stage reaction head 626 contacts the analysis of sample water electrolysis and collects data, and data processing is transmitted to by the moisture-proof cylinders of TDS 625 The processing of plate 622, transmits to data transmitter structure data line 1 by 11 in data transmitter structure 1 and is sent to receiving terminal, Second motor 6410 starts work after being powered, and shaft 6414 is made to start to rotate, since worm screw 6415 and 6414 phase of shaft are welded, 6415 rotation of worm screw is driven, is meshed with worm screw 6415 by convex worm gear 6416, movement is transmitted by convex worm gear 6416, makes the Three long fulcrum bars 6417 move downward, and the drive that is connected with the second pull rod 6418 by pin of third long fulcrum bar 6417 is drawn money on credit with third The second flexible glue head 648 that bar 6417 is connected downwards, generates pressure, the sample water after analysis is pushed back by nesting tube 644 in water, When the second 648 backhaul of flexible glue head baffle 647 can by water resistance every, prevent water adverse current into detection box in.

The present invention solve the prior art during Urban Water Environment restoration of the ecosystem, be susceptible to excessively repair discover it is too late When the problem of leading to water quality nutrient laden, in turn resulting in recontamination, the present invention is combined with each other by above-mentioned component, and the design can be with Quality of water environment in one region of monitoring in real time, and the real-time Transmission region water quality data, effectivelying prevent excessively repairing leads to water quality The reparation of Urban Water Environment ecology is effectively ensured in eutrophication.

The above shows and describes the basic principles and main features of the present invention and the advantages of the present invention, for this field skill For art personnel, it is clear that invention is not limited to the details of the above exemplary embodiments, and without departing substantially from the present invention spirit or In the case of essential characteristic, the present invention can be realized in other specific forms.Therefore, in all respects, should all incite somebody to action Embodiment regards exemplary as, and is non-limiting, the scope of the present invention by appended claims rather than on state Bright restriction, it is intended that including all changes that come within the meaning and range of equivalency of the claims in the present invention It is interior.Any reference signs in the claims should not be construed as limiting the involved claims.

In addition, it should be understood that although this specification is described in terms of embodiments, but not each embodiment is only wrapped Containing an independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should It considers the specification as a whole, the technical solutions in the various embodiments may also be suitably combined, forms those skilled in the art The other embodiment being appreciated that.

Claims (8)

1. one kind being used for Urban Water Environment restoration of the ecosystem real-time monitoring device, it is characterised in that：Its structure includes data transmitter Structure (1), connector (2), supporting rack (3), solar panels (4), solar panels holder (5), real-time monitoring device (6), feature It is：

Data transmitter structure (1) the lower end insertion is mounted on connector (2) and is mutually perpendicular to, on support frame as described above (3) End is mutually welded with connector (2) lower end, and support frame as described above (3) lower end is mutually welded and mutually with real-time monitoring device (6) upper end Vertically, the solar panels holder (5) is total to there are three and is respectively welded at around supporting rack (3), and the solar panels (4) are shared Three and back are welded on solar panels holder (5), and the real-time monitoring device (6) includes draw water sampling mechanism (61), water Quality detection mechanism (62), power reserves mechanism (63), sample water output mechanism (64), anti-overturn mechanism (65), monitor shell (66), the sampling mechanism that draws water (61) is mutually welded with monitor shell (66) inner surface left end, the sample water output mechanism (64) it is mutually welded with monitor shell (66) inner surface right end, the water quality detection mechanism (62) is set to the sampling mechanism (61) that draws water Right end, the sample water output mechanism (64) are set to water quality detection mechanism (62) right end, and the sampling mechanism that draws water (61) passes through water Quality detection mechanism (62) is connected with water output mechanism (64), and water quality detection mechanism (62) upper end is equipped with power reserves mechanism (63), anti-overturn mechanism (65) the upper end insertion is mounted on monitor shell (66) lower end, the water quality detection mechanism (62) Lower end is equipped with anti-overturn mechanism (65).

2. according to claim 1 a kind of for Urban Water Environment restoration of the ecosystem real-time monitoring device, it is characterised in that：Institute The sampling mechanism that draws water (61) is stated to connect including the first short strut (611), the first long fulcrum bar (612), the first conductor wire (613), first Receiving end (614), the first motor (615), first annular fixed frame (616), lock plunger (617), lantern ring (618), shaft (619), bevel gear (6110), umbrella tooth cam (6111), the second long fulcrum bar (6112), the second short strut (6113), fish head wheel (6114), interval wheel disc (6115), sampling pipe (6116), the first pull rod (6117), sealing ring (6118), the first flexible glue head (6119), the first short strut (611) left end is connected by pin with the first long fulcrum bar (612) right end, and described first is short It is fixed by pin among strut (611), the first long fulcrum bar (612) pin passes through pin and interval wheel disc (6115) upper end It is connected, interval wheel disc (6115) left end is bonded with fish head wheel (6114) right end, and fish head wheel (6114) left upper end is logical It crosses pin with the second short strut (6113) lower end to be connected, second short strut (6113).It is grown by pin and second upper end Strut (6112) upper right side is connected, and the second long fulcrum bar (6112) lower-left end is fixed by a pin to umbrella tooth cam (6111) On, umbrella tooth cam (6111) upper end is meshed with bevel gear (6110) lower end, shaft (619) lower end and bevel gear (6110) upper end is mutually welded and is mutually perpendicular to, and shaft (619) upper end is intermediate through lantern ring (618) and is in same axis The heart, shaft (619) the upper end insertion is mounted on the first motor (615) lower end and is mutually perpendicular to, on the lantern ring (618) End is embedded to be mounted on the first motor (615) lower end, and the lock plunger (617) is embedded to be mounted on first annular fixed frame (616) Right end and using be threadedly coupled, first annular fixed frame (616) inner surface in the first motor (615) appearance face paste It closes, the first receiving terminal (614) lower end is mutually welded with the first motor (615) upper end, and first conductor wire (613) is left End is embedded to be mounted on the first receiving terminal (614) right end and is mutually perpendicular to, and the first short strut (611) right end and first is drawn Bar (6117) upper end is fixed by pin, and the first pull rod (6117) lower end insertion is mounted on the first flexible glue head (6119) upper end And it is mutually perpendicular to, first flexible glue head (6119) is embedded to be mounted on sampling pipe (6116), under the sampling pipe (6116) End is embedded to be mounted on sealing ring (6118).

3. according to claim 1 a kind of for Urban Water Environment restoration of the ecosystem real-time monitoring device, it is characterised in that：Institute State water quality detection mechanism (62) include detection machine power supplying line (621), data processing plate (622), protective shell (623), at TDS Manage bar (624), the moisture-proof cylinders of TDS (625), twin-stage reaction head (626), sample water temporary storage box (627), the detection machine power supplying line (621) lower end is mutually welded with TDS processing item (624) upper end, processing item (624) outer surfaces TDS and the moisture-proof cylinders of TDS (625) Inner surface is bonded and is in same axle center, and the moisture-proof cylinders of TDS (625) upper end is mutually welded with protective shell (623) lower end and phase Mutually vertical, the data processing plate (622) is embedded to be mounted on protective shell (623) inner surface, and the TDS handles item (624) upper end It is embedded to be mounted on protective shell (623) lower end and be mutually perpendicular to, processing item (624) upper ends TDS and data processing plate (622) Lower end is mutually welded, and twin-stage reaction head (626) the upper end insertion is mounted on the moisture-proof cylinders of TDS (625) lower end and is mutually perpendicular to, institute The insertion of the moisture-proof cylinders of TDS (625) lower end is stated mounted on sample water temporary storage box (627) upper end and is mutually perpendicular to.

4. according to claim 1 a kind of for Urban Water Environment restoration of the ecosystem real-time monitoring device, it is characterised in that：Institute It includes the second transmission power cord (631), accumulator (632), electric energy importing terminal (633), output to state power reserves mechanism (63) Terminal (634), accumulator (632) lower end are mutually welded and are mutually perpendicular to leading-out terminal (634) upper end, the accumulator (632) upper end imports terminal (633) lower end with electric energy and mutually welds and be mutually perpendicular to, under the second transmission power cord (631) End imports terminal (633) upper end with electric energy and mutually welds and be mutually perpendicular to, and the data transmitter structure (1) includes data line (11), insulation loop bar (12), data line (11) the upper end insertion are mounted on insulation loop bar (12) lower end and in same Axle center, the insulation loop bar (12) lower end is intermediate through accumulator (632) and is mutually perpendicular to.

5. according to claim 1 a kind of for Urban Water Environment restoration of the ecosystem real-time monitoring device, it is characterised in that：Institute State sample water output mechanism (64) include elliptic gear (641), positive finger cam (642), driving belt (643), nesting tube (644), Third short strut (645), triangle limited block (646), baffle (647), the second flexible glue head (648), the second conductor wire (649), Two motor (6410), the second annular fixing frame (6411), the second lock plunger (6412), collar (6413), shaft (6414), snail Bar (6415), convex worm gear (6416), third long fulcrum bar (6417), the second pull rod (6418), the baffle (647) pass through pin It being fixed on nesting tube (644), triangle limited block (646) lower end is mutually welded with nesting tube (644) inner surface, and described second The insertion of pull rod (6418) lower end is mounted on the second flexible glue head (648) upper end, and second flexible glue head (648) is embedded to be mounted on stock layout It manages on (644), the second pull rod (6418) upper end is connected by pin with third long fulcrum bar (6417) bottom righthand side, and described the Three long fulcrum bars (6417) left upper end is connected by pin with third short strut (645) upper right side, the third short strut (645) Lower-left end is fixed by a pin to elliptic gear (641) bottom righthand side, elliptic gear (641) upper right side and positive finger cam (642) lower-left end is meshed, and the positive finger cam (642) is connected by driving belt (643) with convex worm gear (6416), institute It states convex worm gear (6416) right end to be meshed with worm screw (6415) left end, worm screw (6415) upper end and shaft (6414) lower end It mutually welds and is mutually perpendicular to, the shaft (6414) is intermediate through collar (6413) and is in same axle center, the shaft (6414) upper end insertion mounted on the second motor (6410) lower end and is mutually perpendicular to, and second lock plunger (6412) passes through Second annular fixing frame (6411) is connected with the second motor (6410), the second conductor wire (649) right end insertion installation In the second motor (6410) upper end.

6. according to claim 1 a kind of for Urban Water Environment restoration of the ecosystem real-time monitoring device, it is characterised in that：Institute It includes round support plate (651), splash guard (652), gravity block (653), screw thread (654), the circle to state anti-overturn mechanism (65) Type support plate (651) lower end is mutually welded and is mutually perpendicular to gravity block (653) upper end, the gravity block (653) and screw thread (654) it is integrated, splash guard (652) upper end is bonding with gravity block (653) lower end and is mutually perpendicular to, institute It states splash guard (652) upper end and round support plate (651) lower end and is mutually parallel.

7. according to claim 1 a kind of for Urban Water Environment restoration of the ecosystem real-time monitoring device, it is characterised in that：Institute State the insertion of nesting tube (644) lower end to be mounted on splash guard (652), (6116) are managed in the sampling) lower end insertion is mounted on waterproof On plate (652), splash guard (652) the upper end insertion is mounted on monitor shell (66) lower end, gravity block (653) upper end It is connect with monitor shell (66) lower thread, leading-out terminal (634) the lower end insertion is mounted on monitor shell (66) End.

8. according to claim 1 a kind of for Urban Water Environment restoration of the ecosystem real-time monitoring device, it is characterised in that：Institute It states the second transmission power cord (631) upper end mutually to weld with solar panels (4) back, insulation loop bar (12) the lower end insertion installation It in real-time monitoring device (6) upper end and is mutually perpendicular to, data line (11) upper end and data transmitter structure (1) lower end Mutually weld.