CN114371156A

CN114371156A - Remote sewage online detection system

Info

Publication number: CN114371156A
Application number: CN202210082015.1A
Authority: CN
Inventors: 季汉琪; 黄春峰
Original assignee: Anhui Shunmai Construction Co ltd
Current assignee: Anhui Shunmai Construction Co ltd
Priority date: 2022-01-24
Filing date: 2022-01-24
Publication date: 2022-04-19
Anticipated expiration: 2042-01-24
Also published as: CN114371156B

Abstract

A remote sewage on-line detection system belongs to the technical field of sewage, and aims to solve the problem that when the existing sewage is taken out for detection, if the taken-out sewage is inconvenient to isolate, the sewage detection result is easily influenced; according to the invention, the first baffle disc, the second baffle disc and the first water inlet groove are mutually clamped, so that sewage is prevented from entering the first water inlet groove, the first water inlet groove can be opened and closed by moving the handle, and the first water inlet groove can be in a half-open state by the spring; the invention realizes that the sewage is prevented from entering the water sample when the water sample is detected, and avoids influencing the use effect of the sewage detection result.

Description

Remote sewage online detection system

Technical Field

The invention relates to the technical field of sewage, in particular to a remote sewage online detection system.

Background

The sewage is discharged from life and production, and the water without the original use function is called as sewage for short, and the sewage contains harmful substances in industrial production.

At present, when sewage needs to be remotely detected, if the detection device is not convenient to place in the sewage, the sewage is difficult to detect, when the sewage is taken out for detection, if the taken-out sewage is not convenient to isolate, the detection result of the sewage is easy to influence, and when the sewage exceeds the national sewage discharge standard, if the sewage is not convenient to timely remind and early warn the surrounding, the surrounding environment is easy to influence.

In order to solve the problems, a remote online sewage detection system is provided.

Disclosure of Invention

The invention aims to provide a remote online sewage detection system, which solves the problems that when sewage needs to be remotely detected in the background art, if a detection device is not conveniently placed in the sewage, the sewage is difficult to detect, when the sewage is taken out for detection, if the taken-out sewage is not conveniently isolated, the detection result of the sewage is easily influenced, and when the sewage exceeds the national sewage discharge standard, if the surrounding is not conveniently reminded and early warned in time, the surrounding environment is easily influenced.

In order to achieve the purpose, the invention provides the following technical scheme: a remote online sewage detection system comprises a wall body, wherein a main box body is arranged on one side of the wall body, an ultraviolet spectrum device, a three-dimensional fluorescence spectrum device and a signal source are arranged at the upper end of the main box body, a first detection block is arranged on one side of the ultraviolet spectrum device, a second detection block is arranged on one side of the three-dimensional fluorescence spectrum device, the signal source is respectively communicated with the ultraviolet spectrum device and the three-dimensional fluorescence spectrum device, the signal source is connected with a network display interface, a sewage detection system is arranged in the network display interface, and an isolation mechanism and a moving mechanism are arranged on the outer surface of the main box body;

the sewage detection system comprises an ultraviolet spectrum module, a three-dimensional fluorescence spectrum module, a result combination analysis module, a component display module, a warning line module, a reminding module, an overproof module and an alarm module which are all in signal connection, wherein the ultraviolet spectrum module is in signal connection with a qualitative and quantitative analysis module A, the three-dimensional fluorescence spectrum module is in signal connection with a qualitative and quantitative analysis module B, and the component display module is in signal connection with a sewage discharge standard database.

Further, the ultraviolet spectrum module is in signal connection with the ultraviolet spectrum device, the ultraviolet spectrum module determines the ultraviolet absorption spectrum of the water sample by adopting an ultraviolet spectrum method, the three-dimensional fluorescence spectrum module is in signal connection with the three-dimensional fluorescence spectrum device, the three-dimensional fluorescence spectrum module determines the three-dimensional fluorescence spectrum of the water sample by adopting a three-dimensional fluorescence spectrum method, the qualitative and quantitative analysis A module is used for analyzing components in the water sample according to the ultraviolet absorption spectrum, the qualitative and quantitative analysis B module is used for analyzing the components in the water sample according to the three-dimensional fluorescence spectrum, the result is combined with the detection result obtained by the ultraviolet spectrum method and the detection result obtained by the three-dimensional fluorescence spectrum method, and the component display module is used for displaying the components in the water sample.

Further, the sewage discharge standard database records national sewage discharge data indexes for comparing with water sample components displayed by the component display module, the warning line module is a national sewage discharge standard line, the reminding module is used for reminding a user through a network display interface when harmful components in the water sample are close to the warning line module, the standard exceeding module is used for reminding the user that the harmful components in the water sample exceed the national sewage discharge standard line, and the alarm module is used for giving a network alarm to the outside through the network display interface.

Further, isolated mechanism is including setting up the first fender dish in main tank body one end, set up the activity groove in main tank body one end and set up the notch in the main tank body upper end, the activity groove is linked together with the notch, the one end of first fender dish is provided with the soft piece, be provided with the connecting rod on the surface of first fender dish, and the connecting rod is provided with two sets ofly, the one end of connecting rod is provided with the second fender dish, and the second fender dish is provided with two sets ofly, still be provided with the slide bar on the surface of first fender dish, first recess has been seted up to one side of slide bar, the slide bar activity sets up the inside at the notch.

Further, the one end of connecting rod is provided with the second fender dish, and the second fender dish is provided with two sets ofly, still is provided with the slide bar on the surface of first fender dish, and first recess has been seted up to one side of slide bar, and the slide bar activity sets up the inside at the notch, and the one end of slide bar is provided with the handle, and the second recess has been seted up to the other end of first fender dish.

Further, first recess is linked together with the second recess, run through on the inner wall of activity groove and seted up first intake chamber, the one end of the main tank body is provided with the case lid, one side of case lid is run through and has seted up the second intake chamber, first intake chamber communicates through the activity groove with the second intake chamber, one side of case lid is provided with first lug, first lug is connected with first recess, first spout has been seted up to one side of the main tank body, the second spout has been seted up to one side of case lid, one side of the main tank body is provided with U type piece, the both ends of U type piece are all fixed and are provided with the square, the square respectively with first spout and second spout swing joint, all be provided with the telescopic link on the inner wall of first spout and second spout, the one end of telescopic link and one side fixed connection of square.

Further, moving mechanism is including seting up the T type groove in wall body one side, fixed T type piece and the horizontal pole of setting on the T type inslot wall that sets up in main tank body one side, and T type groove is connected with T type piece, and the lower extreme of horizontal pole is provided with first iron chain, and the upper end of T type piece is provided with first riser, and one side activity of first riser is provided with the driving shaft.

Furthermore, a first stop block is fixedly arranged on the outer surface of the driving shaft, two groups of first stop blocks are arranged, a first gear is arranged at one end of the driving shaft, a motor is externally connected to the other end of the driving shaft, a second vertical block is further arranged at the upper end of the T-shaped block, a driven shaft is movably arranged on one side of the second vertical block, and a second stop block is arranged on the outer surface of the driven shaft.

Furthermore, the second stopper is provided with two sets ofly, and the one end of first iron chain is fixed to be set up on the surface of driven shaft, and is located between two sets of second stoppers, and the one end of driven shaft is provided with the second gear, first gear and second gear intermeshing, and the one end of first fender dish is provided with the montant.

Furthermore, be provided with the second iron chain on the surface of montant, the one end of second iron chain is fixed to be set up on the surface of driving shaft, and is located between two sets of first dog, still is provided with the spring on the surface of montant, and the one end of spring is fixed to be set up on the inner wall of first intake chamber.

Compared with the prior art, the invention has the following beneficial effects:

1. when the remote online sewage detection system is required, a first detection block detects a water sample in a first water inlet tank by using an ultraviolet spectroscopy module through an ultraviolet spectroscopy, qualitatively and quantitatively analyzes components in the water sample according to an ultraviolet absorption spectrum, a second detection block detects the water sample in the first water inlet tank by using a three-dimensional fluorescence spectroscopy module through a three-dimensional fluorescence spectroscopy, qualitatively and quantitatively analyzes the components in the water sample according to the three-dimensional fluorescence spectroscopy, the detection result obtained by the ultraviolet spectroscopy is combined with the detection result obtained by the three-dimensional fluorescence spectroscopy to detect the components in the water sample on line, the components in the water sample are displayed by a component display module, the components in the water sample are automatically compared and analyzed with a sewage discharge standard database at the moment, when harmful components are close to a national sewage discharge line standard set by a warning line module, the reminding module is started, the user is reminded through the network display interface, the standard exceeding module is started when harmful ingredients exceed a national sewage discharge standard line, the alarm module reacts, namely, network alarm is carried out to the outside through the network display interface, and therefore the effects of remotely carrying out online detection on sewage and reminding and early warning on the periphery when the harmful ingredients of the sewage exceed the standard are achieved.

2. The invention provides a remote sewage on-line detection system, when a water sample needs to be filled into a first water inlet groove and detected, a U-shaped block is separated from a handle, then the handle can be pulled to open the first water inlet groove, then a main box body moves downwards, the main box body stops moving when the lower end of the main box body enters sewage, then the handle is pushed, a first baffle disc moves along a movable groove under the action of a first convex block and a first groove until the first baffle disc and a second baffle disc shield the first water inlet groove, and a gap cannot be formed between the first baffle disc and the first water inlet groove due to the existence of a soft block, at the moment, the sewage cannot enter the interior of the first water inlet groove through the second water inlet groove again, then a telescopic rod stretches and retracts, and under the action of a square block, the first sliding groove and the second sliding groove, the U-shaped block is pushed to move along the first sliding groove and the second sliding groove, the handle is touched to the U type piece until, another group's U type piece removes equally and makes it touch the opposite side of handle, two sets of U type pieces can form the fender to the handle this moment, can prevent that the unexpected removal of handle from droing, has prevented promptly that first fender dish from removing along the movable groove, further make the inside that the sewage of second intake chamber department can't get into first intake chamber, can detect its water sample through the first detection piece and the second detection piece of first intake chamber inside after that, thereby reach and prevent the effect in sewage entering water sample when detecting the water sample.

3. The invention provides a remote sewage on-line detection system, when a main box body needs to be placed in sewage to sample, collect and detect the sewage, a spring is in a normal state, a vertical rod is positioned at the circle center position of a first water inlet groove, when the main box body needs to be placed downwards, a motor is started to drive a driving shaft to rotate, a second iron chain coiled on the outer surface of the driving shaft is in a loose state, the spring drives the vertical rod to move to the circle center position of the first water inlet groove under the action of the spring, namely a first baffle disc moves along a first groove, the first baffle disc opens the first water inlet groove at the moment, namely the first water inlet groove is in a half-open state, the sewage can enter the inside of the first water inlet groove through a second water inlet groove, the driving shaft drives a first gear to rotate along with the rotation of the motor, the first gear drives a second gear and a driven shaft to rotate, coil this moment and be in lax state at the first iron chain on the driven shaft surface, under the effect of gravity, the headstock body removes along T type groove, until when the headstock body touches sewage, motor stall, when the water sample is collected to the inside of first intake chamber, motor antiport, first iron chain coils the surface at the driven shaft, make first iron chain drag the headstock body to remove along T type groove, the second iron chain coils on the surface of driving shaft, the second iron chain drags the montant to remove, drag first fender dish promptly and remove along first recess, form to block first intake chamber until first fender dish, can make sewage can' T get into the inside of first intake chamber through the second intake chamber once more, can detect the water sample of gathering this moment.

Drawings

FIG. 1 is a block diagram of a sewage detection system of a remote sewage on-line detection system according to the present invention;

FIG. 2 is a schematic view of the overall structure of a remote online sewage detection system according to the present invention;

FIG. 3 is a schematic structural diagram of a main box body and a box cover of the remote online sewage detection system of the present invention;

FIG. 4 is a schematic side view of a main box and a box cover of a remote online sewage detection system according to the present invention;

FIG. 5 is a schematic structural diagram of a first vertical block and a second vertical block of a remote online sewage detection system according to the present invention;

FIG. 6 is a schematic structural diagram of a first blocking disc of the remote online sewage detection system according to the present invention;

FIG. 7 is a schematic side view of a first catch tray of the remote online sewage detection system according to the present invention;

FIG. 8 is a schematic structural diagram of a main tank of a remote online sewage detection system according to the present invention;

FIG. 9 is a schematic view of a box cover structure of a remote online sewage detection system according to the present invention;

FIG. 10 is an enlarged view of the point A in FIG. 2 of a remote online sewage detection system according to the present invention;

FIG. 11 is an enlarged view of the point B in FIG. 4 of a remote online sewage detection system according to the present invention;

FIG. 12 is an enlarged view of FIG. 7 at C of the remote online sewage detection system according to the present invention;

FIG. 13 is a schematic structural view of a U-shaped block of a remote online sewage detection system according to the present invention.

In the figure: 1. a wall body; 2. a main box body; 3. an ultraviolet spectroscopy device; 31. a first detection block; 4. a three-dimensional fluorescence spectroscopy device; 41. a second detection block; 5. a signal source; 6. a network display interface; 7. a sewage detection system; 71. an ultraviolet spectrum module; 711. a qualitative and quantitative analysis A module; 72. a three-dimensional fluorescence spectrum module; 721. a qualitative and quantitative analysis B module; 73. a result binding analysis module; 74. a composition display module; 741. a sewage discharge standard database; 75. a warning line module; 76. a reminding module; 77. an overproof module; 78. an alarm module; 8. an isolation mechanism; 81. a first catch tray; 811. a soft block; 812. a connecting rod; 813. a second catch tray; 814. a slide bar; 8141. a first groove; 815. a handle; 816. a second groove; 82. a movable groove; 821. a first water inlet tank; 83. a notch; 84. a box cover; 841. a second water inlet tank; 85. a first bump; 86. a first chute; 87. a second chute; 88. a U-shaped block; 881. a square block; 8811. a telescopic rod; 9. a moving mechanism; 91. a T-shaped groove; 92. a T-shaped block; 93. a cross bar; 931. a first iron chain; 94. a first vertical block; 941. a drive shaft; 9411. a first stopper; 9412. a first gear; 95. a second vertical block; 951. a driven shaft; 9511. a second stopper; 9512. a second gear; 96. a vertical rod; 961. a second iron chain; 962. a spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In order to solve the technical problems of remote online detection of sewage and reminding and early warning of the surrounding when harmful components of the sewage exceed the standard, the following preferred technical scheme is provided as shown in figures 1-3:

a remote sewage online detection system comprises a wall body 1, wherein a main box body 2 is arranged on one side of the wall body 1, an ultraviolet spectrum device 3, a three-dimensional fluorescence spectrum device 4 and a signal source 5 are arranged at the upper end of the main box body 2, a first detection block 31 is arranged on one side of the ultraviolet spectrum device 3, a second detection block 41 is arranged on one side of the three-dimensional fluorescence spectrum device 4, the signal source 5 is respectively communicated with the ultraviolet spectrum device 3 and the three-dimensional fluorescence spectrum device 4, the signal source 5 is connected with a network display interface 6 in a signal mode, a sewage detection system 7 is arranged inside the network display interface 6, an isolation mechanism 8 and a moving mechanism 9 are arranged on the outer surface of the main box body 2, the sewage detection system 7 comprises an ultraviolet spectrum module 71, a three-dimensional fluorescence spectrum module 72, a result combination analysis module 73, a component display module 74, a warning line module 75, a reminding module 76, a standard exceeding module 77 and an alarm module 78, the system comprises an ultraviolet spectrum module 71, a three-dimensional fluorescence spectrum module 72, a component display module 74, a sewage discharge standard database 741, an ultraviolet spectrum module 71, an ultraviolet spectrum device 3, a three-dimensional fluorescence spectrum module 72, a three-dimensional fluorescence spectrum device 4, a three-dimensional fluorescence spectrum module 72, a qualitative and quantitative analysis A module 711, a qualitative and quantitative analysis B module 721, a result combination analysis module 73, a detection result obtained by the ultraviolet spectrum method and a detection result obtained by the three-dimensional fluorescence spectrum method are connected in a signal mode, the component display module 74 is used for displaying components in a water sample, the sewage discharge standard database 741 records national sewage discharge data indexes for comparing with water sample components displayed by the component display module 74, the warning line module 75 is a national sewage discharge standard line, the reminding module 76 is used for reminding a user through the network display interface 6 when harmful components in the water sample are close to the warning line module 75, the standard exceeding module 77 is used for reminding the harmful components in the water sample to exceed the national sewage discharge standard line, and the alarm module 78 is used for giving network alarm to the outside through the network display interface 6.

Specifically, when the sewage needs to be detected remotely on line, the first detection block 31 detects the water sample in the first water inlet tank 821 by using the ultraviolet spectroscopy through the ultraviolet spectroscopy module 71, performs qualitative and quantitative analysis on components in the water sample according to the ultraviolet absorption spectrum, the second detection block 41 detects the water sample in the first water inlet tank 821 by using the three-dimensional fluorescence spectroscopy through the three-dimensional fluorescence spectroscopy module 72, performs qualitative and quantitative analysis on the components in the water sample according to the three-dimensional fluorescence spectrum, combines the detection result obtained by using the ultraviolet spectroscopy with the detection result obtained by using the three-dimensional fluorescence spectroscopy, detects the components in the water sample on line, displays the components in the water sample through the component display module 74, automatically compares and analyzes the components with the sewage discharge standard database 741 at the moment, when harmful components are close to the national sewage discharge line standard set by the warning line module 75, the reminding module 76 is started, the user is reminded through the network display interface 6, and the exceeding module 77 is started when harmful components exceed the national sewage discharge standard line, so that the alarm module 78 reacts, namely, network alarm is carried out to the outside through the network display interface 6, and the effects of remotely carrying out online detection on sewage and reminding and early warning on the periphery when the harmful components of the sewage exceed the standard are achieved.

In order to solve the technical problem of filling a water sample into the first water inlet groove 821 and detecting the water sample, as shown in fig. 6-9 and fig. 11-13, the following preferred technical solutions are provided:

the isolation mechanism 8 comprises a first baffle disc 81 arranged at one end of the main box body 2, a movable groove 82 arranged at one end of the main box body 2 and a notch 83 arranged at the upper end of the main box body 2, the movable groove 82 is communicated with the notch 83, one end of the first baffle disc 81 is provided with a soft block 811, the outer surface of the first baffle disc 81 is provided with a connecting rod 812, two groups of the connecting rods 812 are arranged, one end of the connecting rod 812 is provided with a second baffle disc 813, two groups of the second baffle disc 813 are arranged, the outer surface of the first baffle disc 81 is also provided with a sliding rod 814, one side of the sliding rod 814 is provided with a first groove 8141, the sliding rod 814 is movably arranged in the notch 83, one end of the connecting rod 812 is provided with a second baffle disc 813, two groups of the second baffle disc 813 are arranged, the outer surface of the first baffle disc 81 is also provided with a sliding rod 814, one side of the sliding rod 814 is provided with a first groove 8141, and the sliding rod 814 is movably arranged in the notch 83, one end of the sliding rod 814 is provided with a handle 815, the other end of the first baffle disc 81 is provided with a second groove 816, the first groove 8141 is communicated with the second groove 816, the inner wall of the movable groove 82 is provided with a first water inlet groove 821 in a penetrating way, one end of the main box body 2 is provided with a box cover 84, one side of the box cover 84 is provided with a second water inlet groove 841 in a penetrating way, the first water inlet groove 821 and the second water inlet groove 841 are communicated through the movable groove 82, one side of the box cover 84 is provided with a first bump 85, the first bump 85 is connected with the first groove 8141, one side of the main box body 2 is provided with a first sliding groove 86, one side of the box cover 84 is provided with a second sliding groove 87, one side of the main box body 2 is provided with a U-shaped block 88, two ends of the U-shaped block 88 are both fixedly provided with blocks 881, the blocks 881 are respectively movably connected with the first sliding groove 86 and the second sliding groove 87, the inner walls of the first sliding groove 86 and the second sliding groove 87 are both provided with a telescopic rod 8811, one end of the telescopic rod 8811 is fixedly connected with one side of the square 881.

When a water sample needs to be poured into the first water inlet groove 821 to detect the water sample, the U-shaped block 88 is separated from the handle 815, the handle 815 can be pulled to open the first water inlet groove 821, the main box 2 is moved downwards, the main box 2 stops moving when the sewage enters the lower end of the main box 2, the handle 815 is pushed, the first baffle disc 81 moves along the movable groove 82 under the action of the first bump 85 and the first groove 8141 until the first baffle disc 81 and the second baffle disc 813 shield the first water inlet groove 821, and a gap cannot be formed between the first baffle disc 81 and the first water inlet groove 821 due to the existence of the soft block 811, the sewage cannot enter the first water inlet groove 821 through the second water inlet groove 841 again, the telescopic rod 8811 is stretched, and the U-shaped block 88 is pushed to move along the first sliding groove 86 and the second sliding groove 87 under the action of the square 881, the first sliding groove 86 and the second sliding groove 87, until the U-shaped block 88 touches the handle 815, the other U-shaped block 88 moves to touch the other side of the handle 815, and at this time, the two U-shaped blocks 88 can block the handle 815, so as to prevent the handle 815 from moving accidentally, i.e., prevent the first baffle disc 81 from moving along the movable groove 82, further prevent the sewage at the second water inlet groove 841 from entering the first water inlet groove 821, and then detect the water sample through the first detection block 31 and the second detection block 41 inside the first water inlet groove 821, thereby achieving the effect of preventing the sewage from entering the water sample when detecting the water sample.

In order to solve the technical problem of placing the main tank body 2 in the sewage to sample and detect the sewage, as shown in fig. 2-5, 10 and 12, the following preferred technical solutions are provided:

the moving mechanism 9 includes a T-shaped groove 91 formed on one side of the wall 1, a T-shaped block 92 fixedly disposed on one side of the main box 2, and a cross bar 93 disposed on an inner wall of the T-shaped groove 91, the T-shaped groove 91 is connected to the T-shaped block 92, a first iron chain 931 is disposed at a lower end of the cross bar 93, a first vertical block 94 is disposed at an upper end of the T-shaped block 92, a driving shaft 941 is movably disposed at one side of the first vertical block 94, a first stopper 9411 is fixedly disposed on an outer surface of the driving shaft 941, and two sets of the first stoppers 9411 are disposed at a lower end of the driving shaft 941, a first gear 9412 is disposed at another end of the driving shaft 941, a second vertical block 95 is further disposed at an upper end of the T-shaped block 92, a driven shaft 951 is movably disposed at one side of the second vertical block 95, a second stopper 9511 is disposed on an outer surface of the driven shaft 951, two sets of the second stopper 9511 are disposed, one end of the first iron chain 931 is fixedly disposed on an outer surface of the driven shaft 951, and be located between two sets of second dog 9511, the one end of driven shaft 951 is provided with second gear 9512, first gear 9412 and second gear 9512 intermeshing, the one end of first fender dish 81 is provided with montant 96, be provided with second iron chain 961 on montant 96's the surface, the one end of second iron chain 961 is fixed to be set up on the surface of driving shaft 941, and be located between two sets of first dog 9411, still be provided with spring 962 on montant 96's the surface, the one end of spring 962 is fixed to be set up on the inner wall of first intake flume 821.

When the main tank body 2 needs to be placed in sewage and sewage is sampled, collected and detected, the spring 962 is in a normal state, the vertical rod 96 is located at the center of the first water inlet groove 821, when the main tank body 2 needs to be placed downwards, the motor is started to drive the driving shaft 941 to rotate, the second iron chain 961 wound on the outer surface of the driving shaft 941 is in a loose state at the moment, under the action of the spring 962, the spring 962 drives the vertical rod 96 to move to the center of the first water inlet groove 821, namely, the first blocking disc 81 moves along the first groove 8141, at the moment, the first blocking disc 81 opens the first water inlet groove 821, namely, the first water inlet groove 821 is in a half-open state, at the moment, sewage can enter the inside of the first water inlet groove 821 through the second water inlet groove 841, along with the rotation of the motor, the driving shaft 941 drives the first gear 9412 to rotate, the first gear 9412 drives the second gear 951 and the driven shaft 951 to rotate, at this moment, coil first iron chain 931 on driven shaft 951 surface and be in the lax state, under the effect of gravity, main tank 2 moves along T type groove 91, until when main tank 2 touches sewage, the motor stall, when the water sample is collected to the inside of first intake channel 821, motor reverse rotation, first iron chain 931 coils the surface at driven shaft 951, make first iron chain 931 drag main tank 2 and move along T type groove 91, second iron chain 961 coils on the surface of driving shaft 941, second iron chain 961 drags montant 96 and moves, drag first fender dish 81 promptly and move along first recess 8141, form to block first intake channel 821 until first fender dish 81, can make sewage can' T get into the inside of first intake channel 821 through second intake channel 841 once more, can detect the water sample of gathering this moment.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a long-range sewage on-line measuring system, including wall body (1), one side of wall body (1) is provided with main tank body (2), the upper end of main tank body (2) is provided with ultraviolet spectrum device (3), three-dimensional fluorescence spectrum device (4) and signal source (5), one side of ultraviolet spectrum device (3) is provided with first detection piece (31), one side of three-dimensional fluorescence spectrum device (4) is provided with second detection piece (41), signal source (5) are linked together with ultraviolet spectrum device (3) and three-dimensional fluorescence spectrum device (4) respectively, signal source (5) signal connection has network display interface (6), its characterized in that: a sewage detection system (7) is arranged in the network display interface (6), and an isolation mechanism (8) and a moving mechanism (9) are arranged on the outer surface of the main box body (2);

the sewage detection system (7) comprises an ultraviolet spectrum module (71), a three-dimensional fluorescence spectrum module (72), a result combination analysis module (73), a component display module (74), a warning line module (75), a reminding module (76), a standard exceeding module (77) and an alarm module (78), wherein the result combination analysis module (73), the component display module (74), the warning line module (75), the reminding module (76), the standard exceeding module (77) and the alarm module (78) are connected through signals, the ultraviolet spectrum module (71) is connected with a qualitative and quantitative analysis A module (711) through signals, the three-dimensional fluorescence spectrum module (72) is connected with a qualitative and quantitative analysis B module (721) through signals, and the component display module (74) is connected with a sewage discharge standard database (741) through signals.

2. The remote online sewage detection system according to claim 1, wherein: the ultraviolet spectrum module (71) is in signal connection with the ultraviolet spectrum device (3), the ultraviolet spectrum module (71) is used for determining the ultraviolet absorption spectrum of a water sample by adopting an ultraviolet spectrum method, the three-dimensional fluorescence spectrum module (72) is in signal connection with the three-dimensional fluorescence spectrum device (4), the three-dimensional fluorescence spectrum module (72) is used for determining the three-dimensional fluorescence spectrum of the water sample by adopting a three-dimensional fluorescence spectrum method, the qualitative and quantitative analysis A module (711) is used for analyzing components in the water sample according to the ultraviolet absorption spectrum, the qualitative and quantitative analysis B module (721) is used for analyzing the components in the water sample according to the three-dimensional fluorescence spectrum, the result combination analysis module (73) is used for combining the detection result obtained by utilizing the ultraviolet spectrum method with the detection result obtained by utilizing the three-dimensional fluorescence spectrum method, and the component display module (74) is used for displaying the components in the water sample.

3. The remote online sewage detection system according to claim 2, wherein: the sewage discharge standard database (741) records national sewage discharge data indexes for comparing with water sample components displayed by the component display module (74), the warning line module (75) is a national sewage discharge standard line, the reminding module (76) is used for reminding a user through the network display interface (6) when harmful components in the water sample approach the warning line module (75), the standard exceeding module (77) is used for enabling the harmful components in the water sample to exceed the national sewage discharge standard line, and the alarm module (78) is used for giving network alarm to the outside through the network display interface (6).

4. The remote online sewage detection system according to claim 1, wherein: isolation mechanism (8) are including setting up first fender dish (81) in main tank body (2) one end, set up activity groove (82) in main tank body (2) one end and set up notch (83) in main tank body (2) upper end, activity groove (82) are linked together with notch (83), the one end of first fender dish (81) is provided with soft piece (811), be provided with connecting rod (812) on the surface of first fender dish (81), and connecting rod (812) are provided with two sets ofly, the one end of connecting rod (812) is provided with second fender dish (813), and second fender dish (813) are provided with two sets ofly, still be provided with slide bar (814) on the surface of first fender dish (81), first recess (8141) have been seted up to one side of slide bar (814), slide bar (814) activity sets up the inside at notch (83).

5. The remote online sewage detection system according to claim 4, wherein: one end of the connecting rod (812) is provided with a second blocking disc (813), the second blocking discs (813) are provided with two groups, the outer surface of the first blocking disc (81) is further provided with a sliding rod (814), one side of the sliding rod (814) is provided with a first groove (8141), the sliding rod (814) is movably arranged inside the notch (83), one end of the sliding rod (814) is provided with a handle (815), and the other end of the first blocking disc (81) is provided with a second groove (816).

6. The remote online sewage detection system according to claim 5, wherein: the first groove (8141) is communicated with the second groove (816), a first water inlet groove (821) is formed in the inner wall of the movable groove (82) in a penetrating mode, a box cover (84) is arranged at one end of the main box body (2), a second water inlet groove (841) is formed in one side of the box cover (84) in a penetrating mode, the first water inlet groove (821) is communicated with the second water inlet groove (841) through the movable groove (82), a first bump (85) is arranged on one side of the box cover (84), the first bump (85) is connected with the first groove (8141), a first sliding groove (86) is formed in one side of the main box body (2), a second sliding groove (87) is formed in one side of the box cover (84), a U-shaped block (88) is arranged on one side of the main box body (2), square blocks (881) are fixedly arranged at two ends of the U-shaped block (88), and the square blocks (881) are movably connected with the first sliding groove (86) and the second sliding groove (87) respectively, the inner walls of the first sliding groove (86) and the second sliding groove (87) are respectively provided with a telescopic rod (8811), and one end of the telescopic rod (8811) is fixedly connected with one side of the square block (881).

7. The remote online sewage detection system according to claim 1, wherein: the moving mechanism (9) comprises a T-shaped groove (91) formed in one side of the wall body (1), a T-shaped block (92) fixedly arranged on one side of the main box body (2) and a cross rod (93) arranged on the inner wall of the T-shaped groove (91), the T-shaped groove (91) is connected with the T-shaped block (92), a first iron chain (931) is arranged at the lower end of the cross rod (93), a first vertical block (94) is arranged at the upper end of the T-shaped block (92), and a driving shaft (941) is movably arranged on one side of the first vertical block (94).

8. The remote online sewage detection system according to claim 7, wherein: the fixed first dog (9411) that is provided with on the surface of driving shaft (941), and first dog (9411) is provided with two sets ofly, and the one end of driving shaft (941) is provided with first gear (9412), and the external motor of the other end of driving shaft (941), the upper end of T type piece (92) still is provided with second and erects piece (95), and one side activity of second perpendicular piece (95) is provided with driven shaft (951), is provided with second dog (9511) on the surface of driven shaft (951).

9. The remote online sewage detection system according to claim 8, wherein: second dog (9511) is provided with two sets ofly, and the one end of first iron chain (931) is fixed to be set up on the surface of driven shaft (951), and is located between two sets of second dog (9511), and the one end of driven shaft (951) is provided with second gear (9512), first gear (9412) and second gear (9512) intermeshing, and the one end of first fender dish (81) is provided with montant (96).

10. The remote online sewage detection system of claim 9, wherein: the outer surface of the vertical rod (96) is provided with a second iron chain (961), one end of the second iron chain (961) is fixedly arranged on the outer surface of the driving shaft (941) and located between the two groups of first stop blocks (9411), the outer surface of the vertical rod (96) is further provided with a spring (962), and one end of the spring (962) is fixedly arranged on the inner wall of the first water inlet groove (821).