CN114778784B - Detection apparatus with cleaning mechanism for sewage discharge - Google Patents

Abstract

The invention discloses a detection device with a cleaning mechanism for sewage discharge, and belongs to the technical field of sewage treatment. The utility model provides a sewage discharge is with detection device who has clearance mechanism, includes first install bin and sewage detection subassembly, still includes: the sewage discharge pipe is fixedly connected inside the first installation box, and two ends of the sewage discharge pipe respectively penetrate through the first installation box; according to the invention, the power of sewage flowing is converted into electric energy through the hydraulic generator, then the electric energy is converted into heat energy through the electric heater, the water subjected to centrifugal separation is evaporated by utilizing the heat energy to generate steam, the steam is liquefied into distilled water, the sewage detection assembly is washed by utilizing the distilled water, and dirt on the sewage detection assembly is washed away, so that granular pollutants and floating objects in the sewage are prevented from being adsorbed on the sewage detection assembly to reduce the sensitivity of the sewage detection assembly, the detection precision is prevented from being reduced, and further, the sewage which does not reach the standard is prevented from being discharged into the nature to pollute the natural environment.

Description

Detection apparatus with cleaning mechanism for sewage discharge

Technical Field

The invention relates to the technical field of sewage treatment, in particular to a detection device with a cleaning mechanism for sewage discharge.

Background

Many kinds of sewage exist, but the main sewage sources and various factories generate non-sewage water, and before the non-sewage water is discharged, the sewage water needs to be purified, so that harmful substances in the sewage water are reduced, the harmful substances can be naturally purified, and the sewage water can be discharged after reaching the standard.

The sewage is required to be discharged into a river or other places after being purified, the natural environment is required to be detected in order to prevent the discharged sewage from containing a large amount of harmful substances, but the detection sensor in the existing sewage detection device is soaked in the sewage for a long time, various pollutants are easily adsorbed on the sensor, the sensitivity of various detection sensors is reduced, the detection precision is reduced, a sewage discharge pipeline needs to be sealed when the detection sensor is manually cleaned, the sewage discharge is temporarily stopped, the manual cleaning efficiency is low, the time is long, the sewage discharge is easily delayed, the subsequent sewage treatment by a sewage treatment tank is delayed, and therefore the detection device with the cleaning mechanism for sewage discharge is required to be designed.

Disclosure of Invention

The invention aims to solve the problem that in the prior art, the detection precision is reduced due to the fact that pollutants are adsorbed on a sensor, and provides a detection device with a cleaning mechanism for sewage discharge.

In order to achieve the purpose, the invention adopts the following technical scheme: the utility model provides a sewage discharge is with detection device who has clearance mechanism, includes first install bin and sewage detection subassembly, still includes: the sewage discharge pipe is fixedly connected inside the first installation box, and two ends of the sewage discharge pipe respectively penetrate through the first installation box; the second mounting box is fixedly connected to the inside of the sewage discharge pipe; the sewage detection assembly is fixedly connected in the second mounting box; the third mounting plate is fixedly connected in the first mounting box, the bottom of the third mounting plate is fixedly connected with an electric telescopic rod, the output end of the electric telescopic rod extends into the sewage pipe and is fixedly connected with a sealing box, the sealing box is connected with the second mounting box in a sliding manner, third through holes are formed in two ends of the second mounting box, first through holes matched with the third through holes are formed in two ends of the sealing box, a fourth through hole is formed in the bottom of the second mounting box, and a second through hole communicated with the fourth through hole is formed in the side wall of the sealing box; the upper third installation box is fixedly connected to the top of the sewage discharge pipe, a first installation cavity and a second installation cavity are formed in the third installation box, distilled water is filled in the first installation cavity, and a water transmission mechanism used for sending the distilled water in the first installation cavity into the second installation box is arranged in the second installation cavity; the evaporation mechanism is fixedly connected to the top of the drain pipe and is used for extracting distilled water; and the water taking mechanism is arranged on the sewage discharge pipe and is used for absorbing a water source.

Preferably, the water taking mechanism comprises a tank body fixedly connected to the top of the sewage discharge pipe and a water guide groove body fixedly connected to the top of the side wall of the tank body, and the water guide groove body is communicated with the tank body. In order to facilitate the supplement of distilled water, preferably, the evaporation mechanism comprises a second installation box fixedly connected to the top of the sewage discharge pipe, an electric heater is fixedly connected in the second installation box, a first cylindrical cavity is formed in the tank body, the second installation box is communicated with the first cylindrical cavity through a water inlet pipe, a first control valve is fixedly connected to the water inlet pipe, and a liquid level sensor is fixedly connected in the second installation box.

In order to prevent that debris from getting into the second install bin, preferably, the inside fixedly connected with filter screen of one end that the inlet tube extends to first cylindricality intracavity, the circular platform chamber has been seted up to the jar internal, circular platform intracavity fixedly connected with mounting bracket, it is connected with first pivot to rotate on the mounting bracket, fixedly connected with brush in the first pivot, the brush is used for scraping the brush filter screen, first pivot extends to in the blowoff pipe and fixedly links there is first acanthus, the first sealed cell body of lateral wall fixedly connected with of blowoff pipe, first sealed cell body cooperatees with first acanthus.

In order to discharge the pollutant jar body, preferably, jar internal second column chamber of having seted up, first pivot is located round platform intracavity fixed puddler, first pivot is located second column intracavity fixedly connected with auger leaf, the bottom fixedly connected with of jar body extends to the delivery pipe in the blowdown pipe, the first mounting panel of fixedly connected with in the blowdown pipe, the flexible slide bar of fixedly connected with on the first mounting panel, the output fixedly connected with round platform of flexible slide bar seals the piece, the round platform seals the piece and offsets with the delivery pipe, the cover has first spring on the flexible slide bar, the both ends of first spring offset with first mounting panel and round platform seal respectively.

In order to prevent to continue to send water to the internal of jar, preferably, fixedly connected with second mounting panel in the first mounting box, the first mounting box of fixedly connected with on the second mounting panel, sliding connection has the baffle in the first mounting box, the bottom of baffle inserts in the guiding gutter and offsets with the inner wall of guiding gutter body, be provided with the second spring in the first mounting box, the both ends of second spring offset with baffle and first mounting box respectively, be provided with the floating plate in the first cylindricality intracavity, fixedly connected with balancing weight on the floating plate, the conduit internal rotation that the top fixedly connected with of the jar body links to each other with first mounting box is connected with the leading wheel, the top fixedly connected with of balancing weight connects the rope, the one end that the balancing weight was kept away from to the rope passes conduit and leading wheel and second spring and baffle fixed linking to each other.

In order to accelerate the liquefaction of the water vapor, preferably, the top fixedly connected with first pipeline of second install bin, fixedly connected with cooling tube on the mounting bracket, first pipeline is linked together with the cooling tube, the cooling tube is linked together with first installation cavity through the second pipeline.

In order to facilitate conveying water, preferably, the water transmission mechanism comprises a piston cylinder fixedly connected in a second installation cavity, a piston plate is connected in the piston cylinder in a sliding mode, a crank is connected to the piston plate in a rotating mode, a second rotating shaft is connected to the second installation cavity in a rotating mode, a second rotating shaft extends a second blade plate fixedly connected in the sewage discharge pipe, a second sealing groove body matched with the second blade plate is fixedly connected to the side wall of the sewage discharge pipe, a crankshaft is fixedly connected to the top of the second rotating shaft and rotates with the crank to be connected, the water inlet end of the piston cylinder is communicated with the first installation cavity through a fourth pipeline, the output end of the piston cylinder is communicated with a second installation box through a third pipeline, and a second control valve is fixedly connected to the third pipeline.

In order to prevent that the sewage that does not reach discharge standard from discharging into nature, preferably, the relief hole fixedly connected with third water pipe of blow off pipe, fixedly connected with three-way control valve on the connecting pipe, two drainage ends of three-way control valve are fixedly connected with first water pipe and second water pipe respectively, the output of first water pipe is linked together with the end of intaking of effluent water sump.

In order to save energy, preferably, fixedly connected with hydraulic generator in the first install bin, hydraulic generator's input shaft extends to fixedly connected with third lamina in the blow off pipe, the lateral wall fixedly connected with of blow off pipe and the third sealed cell body that the third lamina corresponds, fixedly connected with battery in the first install bin, the battery is used for storing the electric energy that hydraulic generator produced, fixedly connected with controller in the first install bin, electric telescopic handle, tee bend control valve, first control valve, level sensor, electric heater and second control valve all with controller signal connection.

Compared with the prior art, the invention provides a detection device with a cleaning mechanism for sewage discharge, which has the following beneficial effects:

the invention converts the power of sewage flowing into electric energy through a hydraulic generator, then converts the electric energy into heat energy through an electric heater, evaporates water subjected to centrifugal separation by utilizing the heat energy to generate steam, liquefies the steam into distilled water, washes a sewage detection assembly by utilizing the distilled water, flushes dirt on the sewage detection assembly, thereby avoiding granular pollutants and floaters in the sewage from being adsorbed on the sewage detection assembly to reduce the sensitivity of the sewage detection assembly, further avoiding the reduction of detection precision, and further avoiding the pollution of natural environment by discharging sewage which does not reach the standard to the natural world.

Drawings

FIG. 1 is a schematic structural view of a detection device with a cleaning mechanism for sewage discharge according to the present invention;

FIG. 2 is a front sectional view of a detecting device with a cleaning mechanism for discharging sewage according to the present invention;

FIG. 3 is a partial first front sectional view of a detecting device with a cleaning mechanism for discharging sewage according to the present invention;

FIG. 4 is a partial second main sectional view of a detecting device with a cleaning mechanism for discharging sewage according to the present invention;

FIG. 5 is a schematic structural view of part A of FIG. 3 of a detecting apparatus with a cleaning mechanism for discharging sewage according to the present invention;

FIG. 6 is a schematic structural view of a first rotating shaft of the detecting device with a cleaning mechanism for sewage discharge according to the present invention;

FIG. 7 is a schematic structural diagram of a sealing box of a detection device with a cleaning mechanism for sewage discharge according to the present invention;

FIG. 8 is a schematic structural diagram of a heat pipe of a testing device with a cleaning mechanism for discharging sewage according to the present invention.

In the figure: 100. a first installation box; 200. a blow-off pipe; 201. a first sealing groove body; 202. a second sealed tank body; 203. a third sealing groove body; 204. a first mounting plate; 205. a telescopic slide bar; 206. a first spring; 207. a circular truncated cone sealing block; 300. a tank body; 31. a first cylindrical cavity; 32. a circular table cavity; 33. a second cylindrical cavity; 301. a floating plate; 302. a balancing weight; 303. a mounting frame; 304. a first rotating shaft; 305. a brush; 306. a stirring rod; 307. auger leaves; 308. a discharge pipe; 309. a first blade plate; 310. a water guide trough body; 400. a second mounting plate; 401. a first mounting box; 402. a second spring; 403. a baffle plate; 404. connecting ropes; 405. a conduit; 406. a guide wheel; 500. a second installation box; 501. an electric heater; 502. a water inlet pipe; 503. a first control valve; 504. a filter screen; 505. a first conduit; 506. a radiating pipe; 507. a second pipe; 508. a liquid level sensor; 600. a third installation box; 601. a first mounting cavity; 6011. a second mounting cavity; 602. a second rotating shaft; 603. a second blade plate; 604. a crankshaft; 605. a piston cylinder; 606. a piston plate; 607. a crank; 608. a third pipeline; 609. a fourth conduit; 610. a second control valve; 700. a third mounting plate; 701. an electric telescopic rod; 702. a sealing box; 7021. a first through hole; 7022. a second through hole; 703. a second mounting box; 7031. a third through hole; 7032. a fourth via hole; 704. a sewage detection assembly; 800. a hydro-generator; 801. a third leaf plate; 802. a battery; 803. a controller; 900. a three-way control valve; 901. a first water pipe; 902. a second water pipe; 903. and a third water pipe.

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.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

The embodiment is as follows: referring to fig. 1 to 8, a detection apparatus with a cleaning mechanism for discharging sewage includes a first installation case 100 and a sewage detection module 704, and further includes: a sewage discharge pipe 200 fixedly connected to the inside of the first installation box 100 and having both ends respectively penetrating the first installation box 100; the second mounting box 703 fixedly connected inside the sewage pipe 200, the sewage detection component 704 is fixedly connected inside the second mounting box 703; the third mounting plate 700 is fixedly connected in the first mounting box 100, the bottom of the third mounting plate 700 is fixedly connected with an electric telescopic rod 701, the output end of the electric telescopic rod 701 extends into the sewage pipe 200 and is fixedly connected with a seal box 702, the seal box 702 is connected with the second mounting box 703 in a sliding manner, the two ends of the second mounting box 703 are provided with third through holes 7031, the two ends of the seal box 702 are provided with first through holes 7021 matched with the third through holes 7031, the bottom of the second mounting box 703 is provided with fourth through holes 7032, and the side wall of the seal box 702 is provided with second through holes 7022 communicated with the fourth through holes 7032; the upper third installation box 600 is fixedly connected to the top of the sewage discharge pipe 200, a first installation cavity 601 and a second installation cavity 6011 are formed in the third installation box 600, distilled water is filled in the first installation cavity 601, and a water transmission mechanism used for sending the distilled water in the first installation cavity 601 into the second installation box 703 is arranged in the second installation cavity 6011; an evaporation mechanism fixedly connected to the top of the drain pipe 200 for extracting distilled water; a water taking mechanism arranged on the sewage draining pipe 200 and used for absorbing water source.

The water taking mechanism is used for sucking water, then the water is sent to the evaporation mechanism for evaporation to form water vapor, the water vapor is liquefied into distilled water, the distilled water is sent into the first installation cavity 601, after a certain period of time, the output end of the electric telescopic rod 701 extends out of the fixed end, the sealing box 702 is lowered, the third through hole 7031 of the first through hole 7021 is sealed in a staggered mode, and the second through hole 7022 is communicated with the fourth through hole 7032, it needs to be noted that one-way valves are arranged on the second through hole 7022 and the fourth through hole 7032, after the distilled water enters the second installation box 703, the distilled water flows in the reverse direction of the flow of the sewage, so that granular pollutants adsorbed on the sewage detection component 704 are blocked and washed away, the phenomenon that the sensitivity of the sewage detection component 704 is reduced due to the adsorption of the sewage detection component 704 is avoided, the detection precision is prevented from being reduced, after the washing, the electric telescopic rod 701 is reset, the first through hole 7021 is communicated with the third through hole 7031, the sewage flows through the second installation box, and the sewage detection component 704 is used for detection, and detection of the sewage, and the sewage is realized, and the sewage detection component 704 comprises an ORP sensor, and an ORP sensor used for detecting residual chlorine sensor, an ORP sensor or a plurality of other sensors or other sensors, and other sensors.

Referring to fig. 1 and 3, the water intake mechanism includes a tank 300 fixedly connected to the top of the sewage pipe 200 and a water chute body 310 fixedly connected to the top of the sidewall of the tank 300, and the water chute body 310 is communicated with the tank 300.

The water in the sewage pipe 200 has a certain impulse in the process of fast flowing, and under the push and inertia of the impulse and the guide of the inclined water chute body 310, the water flow in the sewage pipe 200 flows into the tank body 300 through the water chute body 310.

Referring to fig. 3-5, the evaporation mechanism comprises a second installation box 500 fixedly connected to the top of the sewage pipe 200, an electric heater 501 is fixedly connected in the second installation box 500, a first cylindrical cavity 31 is formed in the tank 300, the second installation box 500 is communicated with the first cylindrical cavity 31 through a water inlet pipe 502, a first control valve 503 is fixedly connected on the water inlet pipe 502, and a liquid level sensor 508 is fixedly connected in the second installation box 500.

When the water level in the second installation box 500 is lower than the liquid level sensor 508, the liquid level sensor 508 controls the first control valve 503 to open through the controller 803, so that the water inlet pipe 502 is communicated, the water in the first cylindrical cavity 31 enters the second installation box 500 through the water inlet pipe 502, the first control valve 503 is automatically closed after being opened for a certain time, the electric heater 501 is electrified to generate heat, the water in the second installation box 500 is heated, the water in the second installation box 500 is evaporated to form water vapor, the water vapor is condensed to form distilled water, the distilled water is discharged into the first installation cavity 601, and the distilled water is supplemented into the first installation cavity 601.

Referring to fig. 5 and 6, the inside fixedly connected with filter screen 504 of one end that inlet tube 502 extends to in the first cylindrical cavity 31, the circular platform chamber 32 has been seted up in jar body 300, fixedly connected with mounting bracket 303 in the circular platform chamber 32, it is connected with first pivot 304 to rotate on the mounting bracket 303, fixedly connected with brush 305 on the first pivot 304, brush 305 is used for scraping brush filter screen 504, first pivot 304 extends to blow off pipe 200 internal fixation even has first acanthus 309, the first sealed cell body 201 of lateral wall fixedly connected with of blow off pipe 200, first sealed cell body 201 cooperatees with first acanthus 309.

The first acanthus 309 of water flow impact in blow off pipe 200 makes first acanthus 309 rotate, and first acanthus 309 makes first pivot 304 rotate, and first pivot 304 makes brush 305 rotate, and brush 305 rotates and scrapes the brush to the net gape of filter screen 504 to avoid filter screen 504's net gape to be stopped up, thereby avoid unable normal moisturizing in second install bin 500.

Referring to fig. 3, 5 and 6, a second cylindrical cavity 33 is formed in a tank 300, a first rotating shaft 304 is located in a circular platform cavity 32 and fixes a stirring rod 306, the first rotating shaft 304 is located in the second cylindrical cavity 33 and is fixedly connected with an auger blade 307, the bottom of the tank 300 is fixedly connected with a discharge pipe 308 extending into a sewage discharge pipe 200, a first mounting plate 204 is fixedly connected in the sewage discharge pipe 200, a telescopic sliding rod 205 is fixedly connected on the first mounting plate 204, a circular platform sealing block 207 is fixedly connected at the output end of the telescopic sliding rod 205, the circular platform sealing block 207 abuts against the discharge pipe 308, a first spring 206 is sleeved on the telescopic sliding rod 205, and two ends of the first spring 206 abut against the first mounting plate 204 and the circular platform sealing block 207 respectively.

The water in the sewage discharge pipe 200 flows and impacts the first blade plate 309 to rotate the first blade plate 309, the first blade plate 309 rotates the first rotating shaft 304, the first rotating shaft 304 rotates the stirring rod 306, the stirring rod 306 rotates to generate centrifugal force inside the tank body 300, solid-liquid separation is performed on the sewage by the centrifugal force, the first rotating shaft 304 rotates the auger blade 307, the auger blade 307 discharges the separated solid pollutants into the second cylindrical cavity 33, as the pollutants increase, the pollutants inside the second cylindrical cavity 33 are discharged into the discharge pipe 308 under the action of extrusion force caused by the rotation of the auger blade 307, and the circular truncated cone sealing block 207 is extruded under the action of the extrusion force, so that the first spring 206 and the bottom of the discharge pipe 308 form a gap, the pollutants are discharged into the sewage discharge pipe 200 through the gap, the accumulation of the solid pollutants in the tank body 300 is avoided, and after the solid pollutants decrease, the first spring 206 rebounds to seal the discharge pipe 308, and the water in the sewage discharge pipe 200 is prevented from entering the tank body 300 from the bottom.

Referring to fig. 2 and 3, a second mounting plate 400 is fixedly connected in the first mounting box 100, a first mounting box 401 is fixedly connected on the second mounting plate 400, a baffle 403 is slidably connected in the first mounting box 401, the bottom of the baffle 403 is inserted into the water guide groove 310 and is abutted against the inner wall of the water guide groove 310, a second spring 402 is arranged in the first mounting box 401, two ends of the second spring 402 are respectively abutted against the baffle 403 and the first mounting box 401, a floating plate 301 is arranged in the first cylindrical cavity 31, a counterweight block 302 is fixedly connected on the floating plate 301, a guide wheel 406 is rotatably connected in a conduit 405 connected with the first mounting box 401 at the top of the tank body 300, a connecting rope 404 is fixedly connected at the top of the counterweight block 302, one end of the connecting rope 404 far away from the counterweight block 302 passes through the conduit 405 and the guide wheel 406, and the second spring 402 is fixedly connected with the baffle 403.

When the water in the tank body 300 is less, under the weight of the balancing weight 302, the balancing weight 302 and the floating plate 301 descend, so that the baffle 403 is dragged through the connecting rope 404, the baffle 403 slides upwards, the second spring 402 contracts, the water guide tank body 310 is communicated, after the water guide tank body 310 is communicated, the water in the sewage discharge pipe 200 enters the tank body 300 along the water guide tank body 310 which is obliquely arranged, the floating plate 301 and the balancing weight 302 ascend through the buoyancy of the water along with the increase of the water in the tank body 300, the second spring 402 resets, the baffle 403 descends, the water guide tank body 310 is sealed again, and therefore the sewage in the sewage discharge pipe 200 enters the tank body 300 when the water in the tank body 300 is centrifugally separated from pollutants in the water.

Referring to fig. 3 and 5, a first pipe 505 is fixedly connected to the top of the second mounting box 500, a heat dissipating pipe 506 is fixedly connected to the mounting frame 303, the first pipe 505 is communicated with the heat dissipating pipe 506, and the heat dissipating pipe 506 is communicated with the first mounting chamber 601 through a second pipe 507.

The inside evaporation water of second install bin 500 gets into in cooling tube 506 through first pipeline 505, with the aquatic in the leading-in jar body 300 of heat, preheats the water in jar body 300 to reduce the heat energy loss, make it get into can reach boiling point evaporation fast in the second install bin 500, inside the water in cooling tube 506 and the second pipeline 507 discharged first installation cavity 601 under the pressure of follow-up vapor, thereby supplyes distilled water in first installation cavity 601.

Referring to fig. 3-4, the water transfer mechanism includes a piston cylinder 605 fixedly connected in a second installation cavity 6011, a piston plate 606 is slidably connected in the piston cylinder 605, a crank 607 is rotatably connected to the piston plate 606, a second rotating shaft 602 is rotatably connected to the second installation cavity 6011, a second blade 603 is fixedly connected in the second rotating shaft 602 extending into the sewage pipe 200, a second sealing groove 202 matched with the second blade 603 is fixedly connected to a side wall of the sewage pipe 200, a crankshaft 604 is fixedly connected to a top of the second rotating shaft 602, the crankshaft 604 is rotatably connected to the crank 607, a water inlet end of the piston cylinder 605 is communicated with the first installation cavity 601 through a fourth pipeline 609, an output end of the piston cylinder 605 is communicated with the second installation box through a third pipeline 608, and a second control valve 610 is fixedly connected to the third pipeline 608.

When the first through hole 7021 and the third through hole 7031 are closed and the second control valve 610 is opened, water impacts the second vane 603 to rotate the second vane 603, so that the second rotating shaft 602 rotates, the second rotating shaft 602 rotates the crankshaft 604, the crankshaft 604 drags the piston plate 606 to slide in the piston cylinder 605 in a reciprocating manner through the crank 607, one-way valves are arranged in the water inlet end and the water outlet end of the piston cylinder 605, so that when the piston plate 606 slides in a reciprocating manner, positive pressure and negative pressure are generated in the piston cylinder 605 in a reciprocating manner, the negative pressure sucks water in the first mounting cavity 601 into the piston cylinder 605 through the fourth pipeline 609, the positive pressure sends water in the piston cylinder 605 into the second mounting box through the third pipeline 608, and therefore, the sewage detection assembly 704 in the second mounting box 703 is washed, and therefore, pollutants are prevented from being adsorbed on the sewage detection assembly 704 to reduce the sensitivity of the detection sensor.

Referring to fig. 1, a discharge hole of the sewage discharge pipe 200 is fixedly connected with a third water pipe 903, a connecting pipe 904 is fixedly connected with a three-way control valve 900, two discharge ends of the three-way control valve 900 are respectively and fixedly connected with a first water pipe 901 and a second water pipe 902, and an output end of the first water pipe 901 is communicated with a water inlet end of the sewage tank.

When the sewage detection assembly 704 detects that one of nitrogen compounds, acidic substances or pH values in water exceeds the standard, the controller 803 controls the three-way control valve 900 to work, so that the third water pipe 903 is communicated with the first water pipe 901, the exceeding sewage is discharged to a sewage treatment pool again for cleaning, and when the water quality reaches the standard, the three-way control valve 900 is communicated with the second water pipe 902 and the third water pipe 903, so that the water is discharged.

Referring to fig. 1 to 5, a hydro-generator 800 is fixedly connected in the first installation box 100, an input shaft of the hydro-generator 800 extends into the sewage pipe 200 and is fixedly connected with a third blade 801, a side wall of the sewage pipe 200 is fixedly connected with a third sealing groove 203 corresponding to the third blade 801, a storage battery 802 is fixedly connected in the first installation box 100 and is used for storing electric energy generated by the hydro-generator 800, a controller 803 is fixedly connected in the first installation box 100, and the electric telescopic rod 701, the three-way control valve 900, the first control valve 503, the liquid level sensor 508, the electric heater 501 and the second control valve 610 are all in signal connection with the controller 803.

The sewage pushes the third blade 801 to rotate in the process of discharging and flowing, the third blade 801 enables the input shaft of the hydraulic generator 800 to rotate, the input shaft of the hydraulic generator 800 drives the rotor inside to rotate, the rotor is driven to rotate and the magnetic coil of the stator of the generator is cut, electric energy is generated in the coil of the generator by using the electromagnetic induction principle, then the electric energy is stored in the storage battery 802 through a transformer and a power line to provide electric energy for the controller 803, the electric telescopic rod 701, the three-way control valve 900, the first control valve 503, the liquid level sensor 508, the electric heater 501 and the second control valve 610 to work, so that the mains supply is not needed to be connected, furthermore, a solar panel can be fixedly installed at the top of the first installation box 100, and the hydraulic generator 800 can supply power for the device to work, so that the device can be independently installed outdoors, it needs to be explained that the controller 803 is a computer, a wireless signal transmission system is arranged in the integrated machine, a wireless signal transmission system can be arranged, a comparison module is arranged in the integrated machine, when pollutants are detected, an alarm is given to a sewage treatment department, so that the sewage treatment department can detect the sewage discharged from factories, the sewage, a river control program is arranged, and a corresponding PLC detection program is arranged, and a river control program is used for detecting the sewage control module 704 is arranged, and the sewage control module is used for detecting that the sewage control program is used for detecting the sewage exceeding standard is arranged, and the sewage control program is used for detecting the sewage control mechanism, and the sewage control mechanism is arranged in the sewage treatment department.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (5)

1. A detection device with a cleaning mechanism for sewage discharge comprises a first installation box (100) and a sewage detection assembly (704), and is characterized by further comprising: a sewage discharge pipe (200) fixedly connected inside the first installation box (100) and with two ends respectively penetrating through the first installation box (100); a second mounting box (703) fixedly connected inside the sewage pipe (200); the sewage detection assembly (704) is fixedly connected in the second mounting box (703); the third mounting plate (700) is fixedly connected in the first mounting box (100), the bottom of the third mounting plate (700) is fixedly connected with an electric telescopic rod (701), the output end of the electric telescopic rod (701) extends into the sewage pipe (200) and is fixedly connected with a seal box (702), the seal box (702) is connected with the second mounting box (703) in a sliding manner, the two ends of the second mounting box (703) are provided with third through holes (7031), the two ends of the seal box (702) are provided with first through holes (7021) matched with the third through holes (7031), the bottom of the second mounting box (703) is provided with fourth through holes (7032), and the side wall of the seal box (702) is provided with second through holes (7022) communicated with the fourth through holes (7032); the upper third installation box (600) is fixedly connected to the top of the sewage discharge pipe (200), a first installation cavity (601) and a second installation cavity (6011) are formed in the third installation box (600), distilled water is filled in the first installation cavity (601), and a water transmission mechanism for conveying the distilled water in the first installation cavity (601) into the second installation box (703) is arranged in the second installation cavity (6011);

the evaporation mechanism is fixedly connected to the top of the sewage discharge pipe (200) and is used for extracting distilled water; the water taking mechanism is arranged on the sewage discharge pipe (200) and is used for absorbing water sources; the water taking mechanism comprises a tank body (300) fixedly connected to the top of the sewage discharge pipe (200) and a water guide groove body (310) fixedly connected to the top of the side wall of the tank body (300), and the water guide groove body (310) is communicated with the tank body (300);

the evaporation mechanism comprises a second installation box (500) fixedly connected to the top of the sewage discharge pipe (200), an electric heater (501) is fixedly connected in the second installation box (500), a first cylindrical cavity (31) is formed in the tank body (300), the second installation box (500) is communicated with the first cylindrical cavity (31) through a water inlet pipe (502), a first control valve (503) is fixedly connected to the water inlet pipe (502), and a liquid level sensor (508) is fixedly connected in the second installation box (500);

the water inlet pipe (502) extends to a filter screen (504) fixedly connected with the inside of one end in the first cylindrical cavity (31), a circular table cavity (32) is formed in the tank body (300), a mounting frame (303) is fixedly connected with the inside of the circular table cavity (32), a first rotating shaft (304) is rotatably connected onto the mounting frame (303), a brush (305) is fixedly connected onto the first rotating shaft (304), the brush (305) is used for scraping the filter screen (504), a first blade plate (309) is fixedly connected into the first rotating shaft (304) which extends to the interior of the sewage discharge pipe (200), a first sealing groove body (201) is fixedly connected onto the side wall of the sewage discharge pipe (200), and the first sealing groove body (201) is matched with the first blade plate (309);

the top of the second installation box (500) is fixedly connected with a first pipeline (505), the installation frame (303) is fixedly connected with a radiating pipe (506), the first pipeline (505) is communicated with the radiating pipe (506), and the radiating pipe (506) is communicated with the first installation cavity (601) through a second pipeline (507);

the water transmission mechanism comprises a piston cylinder (605) fixedly connected in a second installation cavity (6011), a piston plate (606) is connected to the piston cylinder (605) in a sliding mode, a crank (607) is connected to the piston plate (606) in a rotating mode, a second rotating shaft (602) is connected to the second installation cavity (6011) in a rotating mode, a second vane plate (603) is fixedly connected in an extending blow-off pipe (200) in the second rotating shaft (602), a second sealing groove body (202) matched with the second vane plate (603) is fixedly connected to the side wall of the blow-off pipe (200), a crankshaft (604) is fixedly connected with the top of the second rotating shaft (602) and is connected with the crank (607) in a rotating mode, the water inlet end of the piston cylinder (605) is communicated with the first installation cavity (601) through a fourth pipeline (609), the output end of the piston cylinder (605) is communicated with the second installation box (608) through a third pipeline (703), and a second control valve (610) is fixedly connected to the third pipeline (608).

2. The sewage discharge detection device with the cleaning mechanism according to claim 1, wherein a second cylindrical cavity (33) is formed in the tank body (300), the first rotating shaft (304) is located in the circular platform cavity (32) and fixed to the stirring rod (306), the first rotating shaft (304) is located in the second cylindrical cavity (33) and fixedly connected to the auger blade (307), the bottom of the tank body (300) is fixedly connected to the discharge pipe (308) extending into the sewage discharge pipe (200), the sewage discharge pipe (200) is fixedly connected to the first mounting plate (204), the first mounting plate (204) is fixedly connected to the telescopic sliding rod (205), the circular platform sealing block (207) is fixedly connected to the output end of the telescopic sliding rod (205), the circular platform sealing block (207) abuts against the discharge pipe (308), the first spring (206) is sleeved on the telescopic sliding rod (205), and two ends of the first spring (206) abut against the first mounting plate (204) and the circular platform sealing block (207) respectively.

3. The detection device with the cleaning mechanism for sewage discharge according to claim 2, wherein a second mounting plate (400) is fixedly connected to the inside of the first mounting box (100), a first mounting box (401) is fixedly connected to the second mounting plate (400), a baffle plate (403) is slidably connected to the first mounting box (401), the bottom of the baffle plate (403) is inserted into the water guide groove body (310) and abuts against the inner wall of the water guide groove body (310), a second spring (402) is arranged in the first mounting box (401), two ends of the second spring (402) respectively abut against the baffle plate (403) and the first mounting box (401), a floating plate (301) is arranged in the first cylindrical cavity (31), a counterweight block (302) is fixedly connected to the floating plate (301), a guide wheel (406) is rotatably connected to a conduit (405) connected to the first mounting box (401) and is fixedly connected to the top of the tank body (300), a rope (404) is fixedly connected to the top of the counterweight block (302), and one end of the connecting rope (404) passes through the baffle plate (403) and the second mounting box (403) and the guide wheel (406).

4. The detection device with the cleaning mechanism for sewage discharge according to claim 1, wherein a third water pipe (903) is fixedly connected to a discharge hole of the sewage discharge pipe (200), a three-way control valve (900) is fixedly connected to the connecting pipe (904), two water discharge ends of the three-way control valve (900) are respectively and fixedly connected with a first water pipe (901) and a second water pipe (902), and an output end of the first water pipe (901) is communicated with a water inlet end of a sewage tank.

5. The detection device with the cleaning mechanism for sewage discharge according to claim 4, wherein a hydraulic generator (800) is fixedly connected in the first installation box (100), an input shaft of the hydraulic generator (800) extends into the sewage discharge pipe (200) and is fixedly connected with a third blade plate (801), a third sealing groove body (203) corresponding to the third blade plate (801) is fixedly connected to a side wall of the sewage discharge pipe (200), a storage battery (802) is fixedly connected in the first installation box (100), the storage battery (802) is used for storing electric energy generated by the hydraulic generator (800), a controller (803) is fixedly connected in the first installation box (100), and the electric telescopic rod (701), the three-way control valve (900), the first control valve (503), the liquid level sensor (508), the electric heater (501) and the second control valve (610) are all in signal connection with the controller (803).

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