CN115184572B

CN115184572B - Wisdom is sewage quality of water monitoring devices for pipe network

Info

Publication number: CN115184572B
Application number: CN202210864994.6A
Authority: CN
Inventors: 吴卢文
Original assignee: Zhejiang Tongchuang Materials Technology Co ltd
Current assignee: Zhejiang Tongchuang Materials Technology Co ltd
Priority date: 2022-07-21
Filing date: 2022-07-21
Publication date: 2023-04-18
Anticipated expiration: 2042-07-21
Also published as: CN115184572A

Abstract

The invention discloses a sewage quality monitoring device for an intelligent pipe network, which belongs to the technical field of sewage real-time monitoring and comprises a shell, wherein a sewage pipeline used for connecting an intelligent pipe network pipeline is arranged on one side of the shell, the sewage pipeline penetrates through the shell, a driving structure can be driven to work when sewage flows in the sewage pipeline, two detection heads can be alternately inserted into the sewage pipeline by rotating a main shaft, after the detection heads are inserted into the sewage pipeline, the detection heads contact sewage flowing in the sewage pipeline, a water quality analyzer analyzes the water quality, when one detection head is inserted into the sewage pipeline, the other detection head hovers in a monitoring box, and at the moment, a cleaning structure can spray water in a first water tank onto one detection head hovering in the monitoring box, so that the problems that the detection heads are soaked in the sewage for a long time and the detection heads are corroded by the sewage are solved, and the problem that the detection heads are inaccurate in sewage monitoring by the detection heads due to the fact that some sludge is stained on the detection heads is also avoided.

Description

Wisdom is sewage quality of water monitoring devices for pipe network

Technical Field

The invention relates to the technical field of real-time sewage monitoring, in particular to a sewage quality monitoring device for an intelligent pipe network.

Background

The sewage pipeline system consists of pipelines for collecting and conveying urban sewage and accessory structures thereof. The sewage flows into the main pipe from the branch pipe, then flows into the main pipe and finally flows into a sewage treatment plant. The pipelines are distributed like rivers from small to large in a tree shape and are completely different from the circulation through condition of a water supply pipe network. The sewage flows from high to low in the pipeline generally by the water surface difference at two ends of the pipeline, and the inside of the pipeline does not bear pressure, namely the sewage flows by gravity.

At present, because contain more wastes material or harmful substance in the sewage, sewage can cause water pollution, thereby cause harm to the human body, consequently need use real-time supervision device to monitor exhaust sewage, in order to avoid sewage discharge that exceeds standard, sewage discharge real-time supervision device is when using, the mud in the sewage is attached to the surface of monitoring piece easily, and long-time soaking of monitoring piece is in sewage, the monitoring piece is perishable to sewage, the accuracy of monitoring piece to sewage monitoring has been reduced, but when needing to take out the monitoring piece clean, cause the unable problem that carries out real-time supervision to sewage rivers of monitoring piece easily.

Based on this, the invention designs a sewage quality monitoring device for an intelligent pipe network to solve the problems.

Disclosure of Invention

The invention aims to provide a sewage quality monitoring device for an intelligent pipe network, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a sewage quality monitoring device for an intelligent pipe network comprises a shell, wherein a sewage pipeline used for connecting the intelligent pipe network pipeline is arranged on one side of the shell, the sewage pipeline penetrates through the shell, the bottom of the shell is fixedly connected with a monitoring box, the monitoring box is fixedly sleeved with the sewage pipeline, a first water tank is fixedly connected with one side in the monitoring box, a water inlet pipe is connected with one side of the first water tank, one end of the water inlet pipe penetrates through the water tank, the monitoring box and the shell to extend to the outside of the shell, the bottom of the monitoring box is connected with a water outlet pipe, one end of the water outlet pipe extends to the outside of the shell, the top of the monitoring box is provided with a water quality analyzer, a main shaft is rotatably connected in the monitoring box, two cams are arranged on the main shaft, one cam faces the top of the monitoring box, the other cam faces the bottom of the monitoring box, the cam is rotatably connected with a connecting rod, the bottom of the connecting rod is provided with a cavity, a detection head is arranged in the cavity, contact holes communicated with the cavity are respectively formed on the periphery of the connecting rod, the detection head is electrically connected with the water quality analyzer through a cable, the top of the sewage pipeline is provided with two connecting holes, a driving structure for rotating the main shaft is arranged in the monitoring box, the driving structure can insert the detection head at the bottom of the connecting rod into the sewage pipeline when the main shaft is rotated, the driving structure can rotate the main shaft along with the flowing of sewage, when the main shaft rotates, one of the detection heads can be inserted into the sewage pipeline, the other detection head can leave the sewage pipeline, the cleaning structure is used for spraying water to the detection head for cleaning, and water in the first water tank can be sprayed on the detection head after the detection head leaves the sewage pipeline.

The drive structure is connected including rotating the inside pivot of sewer line, a plurality of blades of lateral wall fixedly connected with of pivot, the one end of pivot is passed sewer line extends to in the monitoring box and the incomplete gear of fixedly connected with, a plurality of bracing pieces of inside one side fixedly connected with of monitoring box, the bracing piece with the main shaft rotates and connects, the cam with rotate between the connecting rod and be connected with the connecting block, inside one side fixedly connected with gag lever post of monitoring box, the connecting rod with gag lever post sliding connection, the one end fixedly connected with of main shaft with the first gear of incomplete gear looks adaptation.

The driving structure further comprises a speed increasing pipe fixedly sleeved in the sewage pipeline, and the position of the speed increasing pipe is higher than that of the blade.

The cleaning structure comprises two second water tanks arranged at the bottom of a limiting rod, wherein the second water tanks are respectively sleeved with two connecting rods, a support is connected to the outside of each second water tank in a rotating mode, the support is fixedly connected with the limiting rod, a top sliding hole is formed in the top of each second water tank, a rotating plate is connected to the inside of the top sliding hole in a rotating mode, a bottom water inlet hole is formed in the top of the rotating plate, a first pipeline is sleeved in the bottom water inlet hole in a fixed mode, the first pipeline penetrates through the limiting rod and extends to the bottom of the first water tank, the first pipeline is sleeved with the limiting rod in a fixed mode, a second pipeline is arranged at the top of the first pipeline, the top of the second pipeline extends into the first water tank, a plurality of water spray pipes are arranged in the bottom fixing sleeve of the second water tank, and the water spray pipes are communicated with the second water tanks.

The cleaning structure further comprises a gas booster pump arranged at the top of the first water tank.

The cleaning structure further comprises a blocking pipe connected to the bottom of the first water tank, the second pipeline is provided with a blocking pipe sliding sleeve, the second pipeline is provided with a first pipeline sliding sleeve, the top of the second pipeline is fixedly connected with plugging plates, a plurality of mounting holes are formed in the top of the blocking pipe, a first spring is fixedly connected between the plugging plates, a plurality of top water inlet holes are formed in the outer side wall of the second pipeline, a top touch plate is fixedly arranged on the outer side wall of the main shaft, a lifting plate is arranged on the outer side wall of the second pipeline in a sleeved mode, and a top opening is formed in the top of the top touch plate.

The cleaning structure further comprises a rotating rod which is rotatably connected to one side inside the monitoring box, a chain is arranged between the rotating rod and the incomplete gear, a first bevel gear is fixedly arranged on the rotating rod in a sleeved mode, one side of the connecting rod is fixedly connected with a connecting plate, the connecting plate is rotatably connected with a connecting rod, a second bevel gear matched with the first bevel gear is fixedly sleeved at the top of the connecting rod, a second gear is fixedly connected with the bottom of the connecting rod, and a gear ring matched with the second bevel gear is fixedly sleeved on the outer side wall of the second water tank.

First spouts have been seted up respectively to the inside both sides in company hole, sliding connection has first baffle in the first spout, the sliding hole has been seted up at the top of first spout, the top fixedly connected with of first baffle props up the piece, prop up the piece with it is connected with branch to rotate between the connecting rod, recess has been seted up to inside one side of first spout, the recess with fixedly connected with second spring between the first baffle.

The second spout has still been seted up to the inside both sides in company hole, the second spout with first spout intercommunication, sliding connection has the second baffle in the second spout, the second baffle is located the bottom of first baffle, the first groove of accomodating has been seted up at the top of second baffle, the first inside sliding connection who accomodates the groove has the lug, one side of second baffle seted up with the first intercommunicating pore of accomodating the groove intercommunication, one side fixedly connected with of second spout with intercommunicating pore sliding connection's conflict pole, the lug is close to one side of conflict pole and has seted up the conflict groove, the second is seted up to the bottom of first baffle and has been accomodate the groove, the inside sliding connection that the groove was accomodate to the second has the stirring piece, the second accomodate the groove with stir fixedly connected with third spring between the piece, the lug with fixedly connected with fourth spring between the groove between the first groove of accomodating, the second baffle with fixedly connected with fifth spring between the second spout.

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

1. according to the invention, through arranging the sewage pipeline, a worker connects the sewage pipeline to a pipeline of an intelligent pipe network which needs to be subjected to water quality monitoring, sewage in the pipeline flows into the sewage pipeline, the sewage can drive the driving structure to work when flowing in the sewage pipeline, the driving structure works to drive the main shaft to rotate, the main shaft can rotate to alternately insert and connect two detection heads into the sewage pipeline, after the detection heads are inserted into the sewage pipeline, the detection heads contact the sewage flowing in the sewage pipeline, the water quality analyzer analyzes the water quality to detect whether the water quality is loaded with a discharge standard, the worker can inject clean water into the first water tank, when one detection head is inserted into the sewage pipeline, the other detection head is suspended in the monitoring box, at the moment, the cleaning structure can spray and clean the water in the first water tank onto one detection head suspended in the monitoring box, so that the problem that the detection head is corroded by the sewage due to long-time soaking in the sewage is avoided, and the problem that some sludge is contaminated on the detection head to monitor the sewage is also avoided.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the monitoring box of the present invention;

FIG. 3 is a schematic view of the structure of the water outlet pipe of the present invention;

FIG. 4 is a schematic cross-sectional view of the overall structure of the present invention;

FIG. 5 is a schematic view of a stop lever according to the present invention;

FIG. 6 is a schematic view of a rotating rod structure according to the present invention;

FIG. 7 is an enlarged view of a portion of the structure at A in FIG. 3;

FIG. 8 is an enlarged view of a portion of the structure at B in FIG. 4;

FIG. 9 is an enlarged view of a portion of the structure at C in FIG. 4;

FIG. 10 is an enlarged view of a portion of the structure shown at D in FIG. 4;

FIG. 11 is a schematic diagram of a top contact structure according to the present invention;

FIG. 12 is a schematic cross-sectional view of a barrier tube structure of the present invention;

FIG. 13 is a schematic view of a second tank according to the present invention;

FIG. 14 is a schematic cross-sectional view of a second waterbox construction of the present invention;

FIG. 15 is a schematic view of a supporting block structure according to the present invention;

FIG. 16 is a schematic view of a first sliding chute according to the present invention;

fig. 17 is an enlarged view of a portion of the structure at E in fig. 16.

In the drawings, the reference numbers indicate the following list of parts:

100. a housing; 101. a sewage conduit; 102. a monitoring box; 103. a first water tank; 104. a water inlet pipe; 105. a water outlet pipe; 200. a main shaft; 201. a cam; 202. a connecting rod; 203. connecting holes; 204. connecting blocks; 205. a limiting rod; 206. a support bar; 207. a connecting pipe; 208. a water quality analyzer; 209. a detection head; 210. a contact hole; 300. a rotating shaft; 301. a blade; 302. an incomplete gear; 303. a first gear; 304. a speed increasing pipe; 400. a second water tank; 401. a support; 402. a top slide hole; 403. a rotating plate; 404. a bottom water inlet hole; 405. a water spray pipe; 406. a first conduit; 407. a second pipe; 408. a barrier tube; 409. a plugging plate; 410. mounting holes; 411. a first spring; 412. a top water inlet hole; 413. lifting the plate; 414. a top touch plate; 415. the top is open; 500. a rotating rod; 501. a chain; 502. a first bevel gear; 503. connecting plates; 504. a connecting rod; 505. a second bevel gear; 506. a second gear; 507. a ring gear; 508. a gas booster pump; 600. a first chute; 601. a first baffle plate; 602. a slide hole; 603. supporting a block; 604. a strut; 605. a groove; 606. a second spring; 607. a second chute; 608. a second baffle; 609. a first receiving groove; 610. a bump; 611. a communicating hole; 612. a touch bar; 613. a collision groove; 614. a second receiving groove; 615. a shifting block; 616. a third spring; 617. a fourth spring; 618. and a fifth spring.

Detailed Description

Referring to fig. 1-17, the present invention provides a technical solution: a sewage quality monitoring device for an intelligent pipe network comprises a shell 100, a sewage pipeline 101 used for being connected with an intelligent pipe network pipeline is arranged on one side of the shell 100, the sewage pipeline 101 penetrates through the shell 100, a monitoring box 102 is fixedly connected to the bottom of the shell 100, the monitoring box 102 is fixedly sleeved with the sewage pipeline 101, a first water tank 103 is fixedly connected to one side inside the monitoring box 102, a water inlet pipe 104 is connected to one side of the first water tank 103, one end of the water inlet pipe 104 penetrates through the water tank, the monitoring box 102 and the shell 100 extend to the outside of the shell 100, a water outlet pipe 105 is connected to the bottom of the monitoring box 102, one end of the water outlet pipe 105 extends to the outside of the shell 100, a water quality analyzer 208 is arranged on the top of the monitoring box 102, a spindle 200 is rotatably connected to the monitoring box 102, two cams 201 are arranged on the spindle 200, one cam 201 faces the top of the monitoring box 102, the other cam 201 faces the bottom of the monitoring box 102, a connecting rod 202 is rotatably connected to the bottom of the connecting rod 202, a cavity is arranged in the contact hole, a detection head is arranged in which a connecting pipe 209 is respectively arranged, when the connecting pipe 209 is inserted and the connecting pipe 101 is inserted and the connecting pipe 101 and the sewage pipeline is capable of driving the sewage pipeline 101 to move, the sewage pipeline, a sewage pipeline 207 is inserted and a connecting structure 209 capable of driving the spindle 200 to move along with the spindle 200, the connecting pipe 207 is arranged in the spindle, the spindle 101, and the spindle 200, the monitoring box 102 is also internally provided with a cleaning structure for spraying water to the detection head 209 for cleaning, and the cleaning structure can spray water in the first water tank 103 on the detection head 209 after the detection head 209 leaves the sewage pipeline 101;

when the intelligent water quality monitoring device works, a worker connects the sewage pipeline 101 to a pipeline of an intelligent pipe network which needs water quality monitoring, sewage in the pipeline flows into the sewage pipeline 101, the sewage can drive the driving structure to work when flowing in the sewage pipeline 101, the driving structure works to drive the main shaft 200 to rotate, the main shaft 200 rotates to alternately insert and connect the two detection heads 209 into the sewage pipeline 101, after the detection heads 209 are inserted into the sewage pipeline 101, the detection heads 209 contact the sewage flowing in the sewage pipeline 101, the water quality analyzer 208 analyzes the water quality and detects whether the water quality is in a load discharge standard, the worker can inject clean water into the first water tank 103, when one detection head 209 is inserted into the sewage pipeline 101, the other detection head 209 is suspended in the monitoring box 102, at the moment, the cleaning structure can spray and clean the detection head 209 to one detection head 209 suspended in the monitoring box 102, and therefore the problem that the detection head 209 is inaccurate due to the fact that the sewage is soaked in the sewage 209 for a long time is avoided, the problem that the detection head 209 corrodes the detection head 209 is also avoided, and some sludge is polluted, and the problem that the detection head 209 is caused by inaccurate detection; the device drives main shaft 200 through the drive structure and rotates, can carry out water quality monitoring with two grafting to sewer line 101 that detect first 209 alternans when main shaft 200 is rotatory, incessantly carry out water quality monitoring to the sewage in the sewer line 101, the structure is washd to detecting first 209 to the cooperation simultaneously, for traditional sewage water quality monitoring device, has avoided can't carrying out real-time water quality monitoring's problem to sewage when the clearance detects first 209.

As a further scheme of the present invention, the driving structure includes a rotating shaft 300 rotatably connected inside the sewage pipe 101, the outer side wall of the rotating shaft 300 is fixedly connected with a plurality of blades 301, one end of the rotating shaft 300 passes through the sewage pipe 101 and extends into the monitoring box 102 and is fixedly connected with an incomplete gear 302, one side inside the monitoring box 102 is fixedly connected with a plurality of support rods 206, the support rods 206 are rotatably connected with the main shaft 200, a connecting block 204 is rotatably connected between the cam 201 and the connecting rod 202, one side inside the monitoring box 102 is fixedly connected with a limit rod 205, the connecting rod 202 is slidably connected with the limit rod 205, and one end of the main shaft 200 is fixedly connected with a first gear 303 matched with the incomplete gear 302;

during operation, when sewage flows in the sewage pipeline 101, water flows wash the blades 301, the blades 301 and the rotating shaft 300 can rotate, the rotating shaft 300 rotates to drive the incomplete gear 302 to rotate, the incomplete gear 302 rotates for a circle to drive the spindle 200 to rotate for one hundred eighty degrees, the two cams 201 can be turned by the spindle 200 when rotating for one hundred eighty degrees, the cams 201 can drive the connecting rod 202 to move upwards or downwards when rotating, and therefore the effect that the detecting head 209 at the bottom of the connecting rod 202 is inserted into the sewage pipeline 101 is achieved.

As a further scheme of the invention, the driving structure further comprises a speed-increasing pipe 304 fixedly sleeved in the sewage pipeline 101, and the position of the speed-increasing pipe 304 is higher than that of the blade 301;

when the water flow speed-increasing device works, when water flow passes through the speed-increasing pipe 304, the pipe diameter of the speed-increasing pipe 304 is smaller than that of the sewage pipeline 101, and the flow speed of the water flow can be increased by utilizing the narrow pipe effect, so that the effect that the blades 301 drive the rotating shaft 300 to rotate more smoothly is achieved.

As a further scheme of the present invention, the cleaning structure includes two second water tanks 400 disposed at the bottom of the limiting rod 205, the two second water tanks 400 are rotatably sleeved with the two connecting rods 202, a bracket 401 is rotatably connected to the outside of the second water tank 400, the bracket 401 is fixedly connected to the limiting rod 205, a top sliding hole 402 is formed at the top of the second water tank 400, a rotating plate 403 is rotatably connected to the inside of the top sliding hole 402, a bottom water inlet hole 404 is formed at the top of the rotating plate 403, a first pipeline 406 is fixedly disposed in the bottom water inlet hole 404, the first pipeline 406 passes through the limiting rod 205 and extends to the bottom of the first water tank 103, the first pipeline 406 is fixedly sleeved with the limiting rod 205, a second pipeline 407 is disposed at the top of the first pipeline 406, the top of the second pipeline 407 extends into the first water tank 103, a plurality of water spray pipes 405 are fixedly sleeved at the bottom of the second water tank 400, and the water spray pipes 405 are communicated with the second water tank 400;

when the water spraying cleaning device works, a worker can inject cleaning water into the water tank, the cleaning water can flow to the first pipeline 406 from the second pipeline 407, the first pipeline 406 guides water flow into the second water tank 400, and the water is sprayed on the detection head 209 through the water spraying pipe 405, so that the effect of spraying water to clean the detection head 209 is achieved.

As a further aspect of the present invention, the cleaning structure further comprises a gas booster pump 508 disposed at the top of the first water tank 103;

during operation, the staff can start gas booster pump 508, seals inlet tube 104, and gas booster pump 508 carries out gaseous pressure boost in to first water tank 103, can improve the velocity of flow of cleaning water in first pipeline 406 and the second pipeline 407 to improve the velocity of flow of water in spray pipe 405, better carry out the water spray cleaning to detecting head 209.

As a further scheme of the present invention, the cleaning structure further includes a blocking pipe 408 connected to the bottom of the first water tank 103, the second pipeline 407 and the blocking pipe 408 are slidably sleeved, the second pipeline 407 and the first pipeline 406 are slidably sleeved, the top of the second pipeline 407 is fixedly connected with a blocking plate 409, the top of the blocking pipe 408 is provided with a plurality of mounting holes 410, a first spring 411 is fixedly connected between the mounting holes 410 and the blocking plate 409, the outer side wall of the second pipeline 407 is provided with a plurality of top water inlet holes 412, the outer side wall of the main shaft 200 is fixedly sleeved with a top touch plate 414, the outer side wall of the second pipeline 407 is sleeved with a lifting plate 413, and the top of the top touch plate 414 is provided with a top opening 415;

during operation, when the spindle 200 rotates to lift one of the connecting rods 202 above the sewage conduit 101, at this time, the top touch plate 414 rotates along with the spindle 200 and abuts against the position of the lifting plate 413, the lifting plate 413 and the second conduit 407 are lifted upwards for a certain distance, so that the second conduit 407 drives the blocking pipe to move upwards, the first spring 411 stretches to generate potential energy, at this time, water in the first water tank 103 can enter the second conduit 407 through the top water inlet 412, the effect of conveying water to the second conduit 407 is realized, further, when the spindle 200 rotates to drive the connecting rod 202 to be inserted into the sewage conduit 101, at this time, the top touch plate 414 leaves the lifting plate 413, the second conduit 407 is reset by the force of the first spring 411, at this time, the blocking plate 409 is attached to the blocking pipe 408, water cannot enter the second conduit 407 through the top water inlet, and the problem that when the detection head 209 is located in the sewage conduit 101, water is wasted due to continuous spraying of the water from the water spraying pipe 405.

As a further scheme of the invention, the cleaning structure further comprises a rotating rod 500 rotatably connected to one side inside the monitoring box 102, a chain 501 is arranged between the rotating rod 500 and the incomplete gear 302, a first bevel gear 502 is fixedly sleeved on the rotating rod 500, a connecting plate 503 is fixedly connected to one side of the connecting rod 202, a connecting rod 504 is rotatably connected to the connecting plate 503, a second bevel gear 505 matched with the first bevel gear 502 is fixedly sleeved on the top of the connecting rod 504, a second gear 506 is fixedly connected to the bottom of the connecting rod 504, and a gear ring 507 matched with the second bevel gear 506 is fixedly sleeved on the outer side wall of the second water tank 400;

when the water flow cleaning device works, when the water flow drives the blades 301 and the rotating shaft 300 to rotate, the incomplete gear 302 can drive the rotating rod 500 to rotate through the chain 501, when the connecting rod 202 moves upwards to enable the detection head 209 to leave the sewage pipeline 101, the connecting rod 202 moves to drive the connecting rod 504 to move upwards, after the connecting rod 202 moves to a certain position, the second bevel gear 505 can be meshed with the first bevel gear 502, and the second gear 506 can be meshed with the gear ring 507, so that the second water tank 400 can be driven to rotate, the second water tank 400 can drive the water spray pipes 405 to rotate outside the connecting rod 202, and the water flow cleaning effect on the detection head 209 can be improved.

As a further scheme of the present invention, two sides inside the connecting hole 203 are respectively provided with a first sliding chute 600, the first sliding chute 600 is slidably connected with a first baffle 601, the top of the first sliding chute 600 is provided with a sliding hole 602, the top of the first baffle 601 is fixedly connected with a support block 603, a support rod 604 is rotatably connected between the support block 603 and the connecting rod 202, one side inside the first sliding chute 600 is provided with a groove 605, and a second spring 606 is fixedly connected between the groove 605 and the first baffle 601;

in operation, when the connecting rod 202 moves downwards, the supporting rod 604 can push the position of the supporting block 603, so that the first baffle 601 can slide to be close to the groove 605, the second spring 606 compresses, when the connecting rod 202 moves upwards, the second spring 606 releases potential energy to push the position of the first baffle 601, in the process that the connecting rod 202 moves upwards, the first baffle 601 gradually resets, and after the connecting rod 202 is completely separated from the sewage pipeline 101, the two first baffles 601 reset and are attached, so that the sewage in the sewage pipeline 101 can be prevented from being sputtered out of the connecting hole 203.

As a further aspect of the present invention, two sides of the inside of the connecting hole 203 are further provided with a second sliding groove 607, the second sliding groove 607 is communicated with the first sliding groove 600, a second baffle 608 is slidably connected to the second sliding groove 607, the second baffle 608 is located at the bottom of the first baffle 601, a first accommodating groove 609 is provided at the top of the second baffle 608, a protrusion 610 is slidably connected to the inside of the first accommodating groove 609, a communicating hole 611 communicated with the first accommodating groove 609 is provided at one side of the second baffle 608, an abutting rod 612 slidably connected to the communicating hole 611 is fixedly connected to one side of the second sliding groove 607, an abutting groove 613 is provided at one side of the protrusion 610 close to the abutting rod 612, a second accommodating groove 614 is provided at the bottom of the first baffle 601, a shifting block 615 is slidably connected to the inside of the second accommodating groove 614, a third spring 616 is fixedly connected between the second accommodating groove 614 and the shifting block 615, a fourth spring 617 is fixedly connected between the protrusion 610 and the first accommodating groove 609, and a fifth spring 618 is fixedly connected between the second baffle 607;

in operation, when the connecting rod 202 is moved downwards to be inserted into the sewage conduit 101, the connecting rod 202 moves downwards to pass through the position where the supporting rod 604 pushes the first baffle 601, the first baffle 601 moves to be close to the groove 605, at this time, the first baffle 601 moves to drive the second baffle 608 to follow the movement by the action of the pushing block 615 against the protruding block 610, the fifth spring 618 compresses, when the connecting rod 202 is inserted into the connecting hole 203 during the downward movement, at this time, the second baffle 608 moves, the protruding block 610 is close to the position of the abutting rod 612, the abutting rod 612 contacts the abutting groove 613 on the protruding block 610, the protruding block 610 can move downwards for a certain distance, at this time, the pushing block 615 is separated from the protruding block 610, the second baffle 608 is not under the force of the movement of the first baffle 601, the fifth spring 618 releases potential energy to push the second baffle 608 towards the connecting rod 202 and attach to the connecting rod 202, when the connecting rod 202 moves upwards to be separated from the connecting hole 203, the two second baffles 608 are reset by the action of the fifth spring 618 and attach to the connecting rod 202, and avoid the problem of splashing in front of the sewage conduit 203.

Claims

1. The utility model provides a wisdom is sewage quality monitoring device for pipe network, includes casing (100), its characterized in that, one side of casing (100) is equipped with sewage pipe (101) that is used for connecting wisdom pipe network pipeline, sewage pipe (101) run through casing (100), the bottom fixedly connected with of casing (100) monitors box (102), monitor box (102) with sewage pipe (101) fixed cover is established, the inside one side fixedly connected with first water tank (103) of monitoring box (102), one side of first water tank (103) is connected with inlet tube (104), the one end of inlet tube (104) is passed water tank, monitoring box (102) and casing (100) and is extended to the outside of casing (100), the bottom of monitoring box (102) is connected with outlet pipe (105), the one end of outlet pipe (105) extends to the outside of casing (100), the top of monitoring box (102) is equipped with water quality analyzer (208), monitoring box (102) internal rotation is connected with main shaft (200), be equipped with two cams (201) on main shaft (200), one the cam (201) the top of monitoring box (102), another cam (201) is connected with the top of monitoring box (102), the cam (201) is rotated towards another cam (201), the top of monitoring box (201), the water quality monitoring device is characterized in that a cavity is formed in the bottom of the connecting rod (202), a detection head (209) is arranged in the cavity, contact holes (210) communicated with the cavity are formed in the periphery of the connecting rod (202) respectively, the detection head (209) is electrically connected with the water quality analyzer (208) through a cable, two connecting holes (203) are formed in the top of the sewage pipeline (101), a driving structure used for rotating the main shaft (200) is arranged in the monitoring box (102), the driving structure can enable the detection head (209) at the bottom of the connecting rod (202) to be plugged into the sewage pipeline (101) when the main shaft (200) is rotated, the driving structure can enable the main shaft (200) to be rotated along with the flowing of sewage, one detection head (209) can be plugged into the sewage pipeline (101) and the other detection head (209) is separated from the sewage pipeline (101), a cleaning structure used for spraying water for cleaning the detection head (209) is further arranged in the monitoring box (102), and the cleaning structure can enable the first water tank (103) to be sprayed onto the detection head (209) after the detection head (209) is separated from the sewage pipeline (101);

drive structure is connected including rotating in inside pivot (300) of sewer line (101), the lateral wall fixedly connected with of pivot (300) a plurality of blades (301), the one end of pivot (300) is passed sewer line (101) extend to in monitoring box (102) and fixedly connected with incomplete gear (302), a plurality of bracing pieces of inside one side fixedly connected with (206) of monitoring box (102), bracing piece (206) with main shaft (200) rotate to be connected, cam (201) with it is connected with connecting block (204) to rotate between connecting rod (202), inside one side fixedly connected with gag lever post (205) of monitoring box (102), connecting rod (202) with gag lever post (205) sliding connection, the one end fixedly connected with of main shaft (200) with first gear (303) of incomplete gear (302) looks adaptation.

2. The intelligent sewage quality monitoring device for the pipe network as claimed in claim 1, wherein the driving structure further comprises a speed increasing pipe (304) fixedly sleeved in the sewage pipeline (101), and the position of the speed increasing pipe (304) is higher than the position of the blade (301).

3. The sewage quality monitoring device for the intelligent pipe network as claimed in claim 2, wherein the cleaning structure comprises two second water tanks (400) arranged at the bottom of the limiting rod (205), the two second water tanks (400) are respectively rotatably sleeved with the two connecting rods (202), a support (401) is rotatably connected to the outside of the second water tank (400), the support (401) is fixedly connected with the limiting rod (205), a top sliding hole (402) is formed in the top of the second water tank (400), a rotating plate (403) is rotatably connected to the inside of the top sliding hole (402), a bottom water inlet hole (404) is formed in the top of the rotating plate (403), a first pipeline (406) is fixedly sleeved in the bottom water inlet hole (404), the first pipeline (406) penetrates through the limiting rod (205) and extends to the bottom of the first water tank (103), the first pipeline (406) is fixedly sleeved with the limiting rod (205), a second pipeline (407) is arranged at the top of the first pipeline (406), the second pipeline (407) extends to the top of the second water tank (400), and a plurality of water spray pipes (405) are communicated with the second water tank (400).

4. The intelligent sewage quality monitoring device for the pipe network as claimed in claim 3, wherein the cleaning structure further comprises a gas booster pump (508) disposed at the top of the first water tank (103).

5. The intelligent sewage quality monitoring device for the pipe network as claimed in claim 4, wherein the cleaning structure further comprises a blocking pipe (408) connected to the bottom of the first water tank (103), the second pipeline (407) is slidably sleeved with the blocking pipe (408), the second pipeline (407) is slidably sleeved with the first pipeline (406), a blocking plate (409) is fixedly connected to the top of the second pipeline (407), a plurality of mounting holes (410) are formed in the top of the blocking pipe (408), a first spring (411) is fixedly connected between the mounting holes (410) and the blocking plate (409), a plurality of top water inlet holes (412) are formed in the outer side wall of the second pipeline (407), a top touch plate (414) is arranged on the outer side wall of the main shaft (200), a lifting fixing sleeve (413) is arranged on the outer side wall of the second pipeline (407), and a top opening (415) is formed in the top of the top touch plate (414).

6. The intelligent sewage quality monitoring device for the pipe network of claim 5, wherein the cleaning structure further comprises a rotating rod (500) rotatably connected to one side inside the monitoring box (102), a chain (501) is arranged between the rotating rod (500) and the incomplete gear (302), a first bevel gear (502) is fixedly sleeved on the rotating rod (500), a connecting plate (503) is fixedly connected to one side of the connecting rod (202), a connecting rod (504) is rotatably connected to the connecting plate (503), a second bevel gear (505) matched with the first bevel gear (502) is fixedly sleeved on the top of the connecting rod (504), a second gear (506) is fixedly connected to the bottom of the connecting rod (504), and a gear ring (507) matched with the second gear (506) is fixedly sleeved on the outer side wall of the second water tank (400).

7. The intelligent sewage quality monitoring device for the pipe network according to claim 6, wherein first sliding grooves (600) are respectively formed in two sides of the inside of the connecting hole (203), first baffle plates (601) are slidably connected in the first sliding grooves (600), sliding holes (602) are formed in the tops of the first sliding grooves (600), supporting blocks (603) are fixedly connected to the tops of the first baffle plates (601), supporting rods (604) are rotatably connected between the supporting blocks (603) and the connecting rods (202), grooves (605) are formed in one side of the inside of the first sliding grooves (600), and second springs (606) are fixedly connected between the grooves (605) and the first baffle plates (601).

8. The device for monitoring the quality of sewage water for the intelligent pipe network as claimed in claim 7, wherein a second sliding groove (607) is further formed in each of two sides of the inside of the connecting hole (203), the second sliding groove (607) is communicated with the first sliding groove (600), a second baffle (608) is slidably connected to the second sliding groove (607), the second baffle (608) is located at the bottom of the first baffle (601), a first accommodating groove (609) is formed in the top of the second baffle (608), a protruding block (610) is slidably connected to the inside of the first accommodating groove (609), a communicating hole (611) communicated with the first accommodating groove (609) is formed in one side of the second baffle (608), a butting rod (612) is fixedly connected to one side of the second sliding groove (607) and slidably connected to the communicating hole (611), a butting groove (613) is formed in one side of the protruding block (610) close to the butting rod (612), a second accommodating groove (614) is formed in the bottom of the first baffle (601), a second accommodating groove (615) is fixedly connected to a sliding block (615), a fourth accommodating spring (614) is connected between the sliding block (616) and the fourth accommodating groove (614), a fifth spring (618) is fixedly connected between the second baffle (608) and the second sliding groove (607).