WO2024066571A1 - Smart wastewater treatment system and method for using same - Google Patents

Smart wastewater treatment system and method for using same Download PDF

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Publication number
WO2024066571A1
WO2024066571A1 PCT/CN2023/103735 CN2023103735W WO2024066571A1 WO 2024066571 A1 WO2024066571 A1 WO 2024066571A1 CN 2023103735 W CN2023103735 W CN 2023103735W WO 2024066571 A1 WO2024066571 A1 WO 2024066571A1
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WO
WIPO (PCT)
Prior art keywords
fixedly connected
telescopic rod
plate
sewage
cleaning
Prior art date
Application number
PCT/CN2023/103735
Other languages
French (fr)
Chinese (zh)
Inventor
刘会平
凌建军
凌子涵
张冬
Original Assignee
凌志环保股份有限公司
江苏凌志环保工程有限公司
中凌水环境设备(云南)有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 凌志环保股份有限公司, 江苏凌志环保工程有限公司, 中凌水环境设备(云南)有限公司 filed Critical 凌志环保股份有限公司
Publication of WO2024066571A1 publication Critical patent/WO2024066571A1/en

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Classifications

    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F1/00Treatment of water, waste water, or sewage
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D29/00Filters with filtering elements stationary during filtration, e.g. pressure or suction filters, not covered by groups B01D24/00 - B01D27/00; Filtering elements therefor
    • B01D29/01Filters with filtering elements stationary during filtration, e.g. pressure or suction filters, not covered by groups B01D24/00 - B01D27/00; Filtering elements therefor with flat filtering elements
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D29/00Filters with filtering elements stationary during filtration, e.g. pressure or suction filters, not covered by groups B01D24/00 - B01D27/00; Filtering elements therefor
    • B01D29/50Filters with filtering elements stationary during filtration, e.g. pressure or suction filters, not covered by groups B01D24/00 - B01D27/00; Filtering elements therefor with multiple filtering elements, characterised by their mutual disposition
    • B01D29/56Filters with filtering elements stationary during filtration, e.g. pressure or suction filters, not covered by groups B01D24/00 - B01D27/00; Filtering elements therefor with multiple filtering elements, characterised by their mutual disposition in series connection
    • B01D29/58Filters with filtering elements stationary during filtration, e.g. pressure or suction filters, not covered by groups B01D24/00 - B01D27/00; Filtering elements therefor with multiple filtering elements, characterised by their mutual disposition in series connection arranged concentrically or coaxially
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D29/00Filters with filtering elements stationary during filtration, e.g. pressure or suction filters, not covered by groups B01D24/00 - B01D27/00; Filtering elements therefor
    • B01D29/62Regenerating the filter material in the filter
    • B01D29/64Regenerating the filter material in the filter by scrapers, brushes, nozzles, or the like, acting on the cake side of the filtering element
    • B01D29/6407Regenerating the filter material in the filter by scrapers, brushes, nozzles, or the like, acting on the cake side of the filtering element brushes
    • B01D29/6415Regenerating the filter material in the filter by scrapers, brushes, nozzles, or the like, acting on the cake side of the filtering element brushes with a rotary movement with respect to the filtering element
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01FMIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
    • B01F27/00Mixers with rotary stirring devices in fixed receptacles; Kneaders
    • B01F27/80Mixers with rotary stirring devices in fixed receptacles; Kneaders with stirrers rotating about a substantially vertical axis
    • B01F27/90Mixers with rotary stirring devices in fixed receptacles; Kneaders with stirrers rotating about a substantially vertical axis with paddles or arms 
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F1/00Treatment of water, waste water, or sewage
    • C02F1/001Processes for the treatment of water whereby the filtration technique is of importance

Definitions

  • the present invention relates to the technical field of sewage treatment, and in particular to an intelligent sewage treatment system and a use method thereof.
  • Sewage refers to the discharged water from life and production that is polluted to a certain extent. Water that has lost its original function is referred to as sewage. It is mainly water used in life. It contains more organic matter and is easier to handle. Sewage treatment is the process of purifying sewage so that it meets the water quality requirements for discharge into a certain water body or reuse.
  • a purification tank for example, in Chinese patent CN214513082U, a purification tank, a sewage pipe, a sewage valve, a primary filter and a secondary filter are provided, so that sewage will be filtered through the primary filter and the secondary filter before entering the water supply device, and will not block the pipe of the water supply device, and the filtered garbage or impurities will be discharged through the sewage pipe.
  • a flow meter, an abnormal feedback module, an instruction issuing module, an emergency stop module, and an audio-visual alarm module are provided, so that it can be known whether the flow is normal.
  • the machine will stop and alarm to prevent the equipment from idling and protect the equipment, and remind the user that there are too many garbage and impurities in the purification tank and they need to be cleaned, thereby ensuring the normal operation of the equipment and improving efficiency.
  • an intelligent sewage treatment system and a method of use thereof are provided, which can filter and collect large impurities in the sewage and improve the purification efficiency of the purification liquid.
  • the present invention provides an intelligent sewage treatment system and a method for using the same, which solves the problem that large impurities in sewage reduce the efficiency of sewage purification by purification liquid.
  • an intelligent sewage treatment system including a sewage tank, the front side of the sewage tank is fixedly connected to a filtering mechanism through a fixed block, the bottom of the filtering mechanism is fixedly connected to an extrusion mechanism, the bottom of the sewage tank is fixedly connected to a cleaning mechanism, the inside of the sewage tank and the outside of the extrusion mechanism are fixedly connected to a stirring mechanism, and the inside of the sewage tank and the rear side of the filtering mechanism are fixedly connected to a pumping mechanism.
  • the filtering mechanism includes a support plate and two groups of baffle plates, the top of the support plate is fixedly connected to a first telescopic rod, the telescopic end of the first telescopic rod passes through and extends to the interior of the support plate, the telescopic end of the first telescopic rod is fixedly connected to a first filter plate, the inclined surfaces on the left and right sides of the first filter plate are provided with a plurality of first filter holes, the front and rear sides of the left and right sides of the first filter plate are provided with guide grooves, the inside of the guide grooves is fixedly connected with a straight rack, the bottom of the two groups of baffle plates and one side of the guide grooves are fixedly connected with an arc rack, the outside of the two groups of baffle plates and one side away from the first telescopic rod are fixedly connected with a rotating frame, and the inside of the rotating frame is rotatably connected with a load-bearing frame via a rotating shaft.
  • the outside of the support plate is fixedly connected to the outside of the sewage bin, and a rotating groove is provided on both sides of the top of the sewage bin, and the inside of the rotating groove is rotatably connected to the bottom of the baffle plate through a rotating shaft.
  • a spring is fixedly connected between the outside of the sewage bin and the outside of the rotating frame, and the outside of the arc-shaped rack is meshed with the outside of the linear rack.
  • the first telescopic rod is retracted, and the first telescopic rod lifts the first filter plate upward, so that the straight rack and the arc rack are separated, and the baffle plate rotates under the gravity of the load-bearing frame, so that the outside of the baffle plate contacts the inside of the rotating groove, and the load-bearing frame rotates along the rotating frame.
  • large impurities on the top of the first filter plate flow into the collection bag outside the load-bearing frame through the inclined surfaces on both sides of the first filter plate.
  • the extrusion mechanism includes an adjusting frame, a second filter plate is slidably connected inside the adjusting frame, sliding grooves are provided on the left and right sides of the second filter plate, clamping blocks are fixedly connected on the left and right sides of the inner surface of the adjusting frame and located inside the sliding grooves, and the inside of the sliding groove is slidably connected to the outside of the clamping block, a spring is fixedly connected between the left side of the inside of the sliding groove on the right side and the left side of the clamping block on the right side, a second filter hole is provided on the top of the second filter plate and below the first filter hole, and an inclined block is provided on the front side of the bottom of the second filter plate.
  • the first telescopic rod is extended, and the first telescopic rod pushes the first filter plate downward.
  • the inclined block moves the second filter plate along the blocking block through the sliding groove, so that the second filter plate blocks the first filter hole, and the second filter plate squeezes out the impurities inside the sewage tank.
  • the cleaning mechanism includes a cleaning bin, a sealing groove is provided on the top of the cleaning bin, and a sealing plate is slidably connected inside the sealing groove
  • the rear side of the cleaning bin is fixedly connected to a second telescopic rod through a fixed block
  • the telescopic end of the second telescopic rod is fixedly connected to the right side of the sealing plate through a fixed block
  • the top of the left side of the inner surface of the cleaning bin is rotatably connected to the cleaning plate through a rotating shaft
  • the front and rear sides of the left side of the inner surface of the cleaning bin and located below the cleaning plate are rotatably connected to a third telescopic rod through a rotating block
  • the telescopic end of the third telescopic rod is rotatably connected to the outside of the cleaning plate through a rotating block
  • the side of the cleaning plate away from the second filter plate is fixedly connected to the first motor through a fixed block
  • the output end of the first motor passes through and extends to the side of
  • the top of the sealing plate is provided with an inclined groove, and the inclined surface of the inclined groove is slidably connected with the inclined surface of the inclined block.
  • the bottom of the first filter plate is fixedly connected to the top of the adjustment frame, and the outside of the first filter plate and the front and rear sides of the adjustment frame are slidably connected to the inside of the sewage tank.
  • the second telescopic rod is extended, and the second telescopic rod drives the sealing plate to move, so that impurities on the top of the sealing plate fall into the inside of the collecting bin
  • the third telescopic rod is extended by the control switch, and the third telescopic rod drives the cleaning plate to rotate, and the cleaning plate is moved to the bottom of the sewage bin
  • the first motor is started by the control switch, and the first motor drives the cleaning disk to rotate, and the cleaning brush outside the cleaning disk cleans the impurities inside the second filter hole.
  • the stirring mechanism includes a second motor and a rotating drum, the outside of the second motor is fixedly connected to the outside of the telescopic end of the first telescopic rod through a fixed block, the outside of the output end of the second motor is fixedly connected to a first gear, the top of the outer surface of the rotating drum is fixedly connected to a second gear, the outside of the second gear is meshingly connected to the outside of the first gear, a plurality of stirring rods are fixedly connected to the outside of the rotating drum, the inside of the rotating drum is slidingly connected to the outside of the telescopic end of the first telescopic rod, the top and bottom of the rotating drum are both slidingly connected to positioning rings, the insides of the two groups of positioning rings are fixedly connected to the outside of the telescopic end of the first telescopic rod, the outside of the stirring rod is fixedly connected to a discharge pipe, and the top of the discharge pipe is connected to a connecting pipe.
  • the second motor drives the first gear to rotate
  • the first gear drives the second gear to rotate through meshing connection
  • the second gear drives the stirring rod to rotate through the rotating cylinder, so that the internal purified liquid of the sewage tank is fully integrated with the sewage.
  • the pumping mechanism includes a pumping frame, the bottom of the pumping frame is fixedly connected to the top of the sewage tank, the top of the pumping frame is fixedly connected to a water pump, the water inlet end of the water pump is connected to the pumping tank through a pipeline, the bottom of the pumping tank is provided with a water suction hole, the outside of the pumping tank is fixedly connected to a filter screen, the water outlet end of the water pump is connected to a water outlet pipe, and a valve is installed on the outside of the water outlet pipe.
  • the water pump is started and the valve is opened, and the water pump draws out the clean liquid inside the sewage tank through the pumping tank and the suction hole.
  • the present invention is further configured as follows: a material storage bin is fixedly connected to the top of the support plate and located in front of the first telescopic rod, an air pump is fixedly connected to the top of the material storage bin, an air inlet end of the air pump is connected to a suction pipe, one end of the suction pipe is connected to the interior of the material storage bin, and an air outlet end of the air pump is connected to one end of a connecting pipe.
  • the air pump is started, and the air pump flows the purified liquid inside the storage bin into the sewage bin through the connecting pipe and the discharge pipe.
  • the present invention also discloses a method for using the intelligent sewage treatment system, which specifically comprises the following steps:
  • Step 1 sewage filtration: extend the first telescopic rod by controlling the switch, the first telescopic rod moves the first filter plate downward, the linear rack is meshed with the arc-shaped rack, the baffle plate is placed vertically with the first filter plate, the collection bag is put inside the weight frame, and the sewage is poured into the sewage tank, the sewage flows into the sewage tank through the first filter hole and the second filter hole, and the large impurities in the sewage will remain on the top of the first filter plate, and the first telescopic rod is retracted by controlling the switch, the first telescopic rod lifts the first filter plate upward, when the linear rack is separated from the arc-shaped rack, the baffle plate rotates under the gravity of the weight frame, the outside of the baffle plate contacts the inside of the rotating groove, the weight frame rotates along the rotating frame, and at the same time, the large impurities on the top of the first filter plate flow into the collection bag outside the weight frame through the inclined surfaces on both sides of the first filter plate;
  • Step 2 sewage purification: extend the first telescopic rod through the control switch, the first telescopic rod pushes the first filter plate downward, the linear rack is meshed with the arc rack, and the baffle is rotated.
  • the baffle rotates under the gravity of the load-bearing frame, and the large impurities remaining on the top of the baffle are vibrated and fall into the collection bag.
  • the first telescopic rod drives the stirring rod to move below the sewage, stop extending the first telescopic rod, start the air pump through the control switch, and the air pump flows the purified liquid inside the storage bin into the sewage bin through the connecting pipe and the discharge pipe.
  • the second motor drives the first gear to rotate, the first gear drives the second gear to rotate through the meshing connection, and the second gear drives the stirring rod to rotate through the rotating cylinder, so that the purified liquid inside the sewage bin is fully integrated with the sewage;
  • Step 3 sewage squeezing: After the purified liquid and sewage are fully integrated for a period of time, most of the impurities in the sewage fall on the top of the sealing plate through the first filter hole, and the water pump is started by the control switch. The water pump extracts the liquid after cleaning inside the sewage tank through the pumping tank and the suction hole. At the same time, the first telescopic rod is extended by the control switch, and the first telescopic rod pushes the first filter plate downward. When the inclined surface of the inclined groove contacts the inclined surface of the inclined block, the inclined groove moves the second filter plate along the card block through the inclined block, so that the second filter plate blocks the first filter hole, so that the second filter plate squeezes the impurities inside the sewage tank;
  • Step 4 impurity treatment: After the impurities are squeezed out, the second telescopic rod is extended by the control switch, and the second telescopic rod drives the sealing plate to move, so that the impurities on the top of the sealing plate fall into the inside of the collecting bin, and the third telescopic rod is extended by the control switch, and the third telescopic rod drives the cleaning plate to rotate, and the cleaning plate is moved to the bottom of the sewage bin, and the first motor is started by the control switch, and the first motor drives the cleaning disk to rotate, and the cleaning brush outside the cleaning disk cleans the impurities inside the second filter hole.
  • the collecting bin is pulled out from the inside of the cleaning bin.
  • the present invention provides an intelligent sewage treatment system and a method for using the same.
  • the system has the following beneficial effects:
  • the intelligent sewage treatment system and its use method by retracting the first telescopic rod, the first telescopic rod lifts the first filter plate upward, so that the linear rack and the arc rack are separated, and the shielding plate rotates under the gravity of the load-bearing frame, so that the outside of the shielding plate contacts the inside of the rotating groove, and the load-bearing frame rotates along the rotating frame.
  • large impurities on the top of the first filter plate flow into the collection bag outside the load-bearing frame through the inclined surfaces on both sides of the first filter plate. In this way, large impurities in the sewage can be filtered and collected, thereby improving the purification efficiency of the purified liquid.
  • the intelligent sewage treatment system and its use method extend the first telescopic rod, which pushes the first filter plate downward.
  • the inclined groove moves the second filter plate along the blocking block through the inclined block, so that the second filter plate blocks the first filter hole.
  • the first telescopic rod pushes the second filter plate to move to the bottom of the sewage bin, squeezing out impurities inside the sewage bin, thereby improving the efficiency of separating sewage and impurities inside the sewage bin.
  • the intelligent sewage treatment system and its use method extend the second telescopic rod, which drives the sealing plate to move so that impurities on the top of the sealing plate fall into the inside of the collection bin, extend the third telescopic rod, which drives the cleaning plate to rotate and move the cleaning plate to the bottom of the sewage bin, start the first motor, which drives the cleaning disk to rotate, and the cleaning brush on the outside of the cleaning disk cleans the impurities inside the second filter hole.
  • the impurities can fall into the inside of the collection bin by moving the sealing plate, preventing the impurities from accumulating inside the sewage bin, thereby providing a clean environment for the next sewage treatment.
  • FIG1 is a schematic diagram of the three-dimensional structure of the present invention.
  • FIG. 2 is a schematic structural diagram of the filtering mechanism of the present invention.
  • FIG3 is a schematic structural diagram of the first filter plate of the present invention.
  • FIG. 4 is a schematic structural diagram of the extrusion mechanism of the present invention.
  • FIG5 is a cross-sectional view of the second filter plate of the present invention.
  • FIG. 6 is a schematic structural diagram of the stirring mechanism of the present invention.
  • FIG. 7 is a schematic structural diagram of the cleaning mechanism of the present invention.
  • FIG. 8 is a cross-sectional view of a sealing plate of the present invention.
  • FIG. 9 is a schematic structural diagram of the pumping mechanism of the present invention.
  • FIG. 10 is a cross-sectional view of the filter screen of the present invention.
  • an embodiment of the present invention provides a technical solution: an intelligent sewage treatment system, including a sewage tank 1, a filtering mechanism 2 is fixedly connected to the front side of the sewage tank 1 through a fixed block, a squeezing mechanism 3 is fixedly connected to the bottom of the filtering mechanism 2, a cleaning mechanism 4 is fixedly connected to the bottom of the sewage tank 1, a stirring mechanism 5 is fixedly connected inside the sewage tank 1 and outside the squeezing mechanism 3, and a pumping mechanism 6 is fixedly connected inside the sewage tank 1 and at the rear side of the filtering mechanism 2.
  • the filtering mechanism 2 includes a support plate 7 and two groups of baffle plates 8, the top of the support plate 7 is fixedly connected with a first telescopic rod 9, the model of the first telescopic rod 9 is ANT-26, the first telescopic rod 9 is electrically connected to an external power supply and is controlled by a control switch, the telescopic end of the first telescopic rod 9 passes through and extends to the interior of the support plate 7, the telescopic end of the first telescopic rod 9 is fixedly connected with a first filter plate 10, the inclined surfaces on the left and right sides of the first filter plate 10 are provided with a plurality of first filter holes 11, the front and rear sides of the left and right sides of the first filter plate 10 are provided with guide grooves 12, the inside of the guide groove 12 is fixedly connected with a straight rack 13, the bottom of the two groups of baffle plates 8 and on one side of the guide groove 12 are fixedly connected with an arc rack 14, the outside of the two groups of ba
  • the stroke of the linear rack 13 allows the arc rack 14 to rotate less than 60°.
  • the corresponding sides of the two groups of shielding plates 8 are arranged at an inclination.
  • a placement groove is provided on the top of the load-bearing frame 16, and a collection bag is placed inside the placement groove.
  • the outside of the support plate 7 is fixedly connected to the outside of the sewage tank 1, and a rotating groove is opened on both sides of the top of the sewage tank 1, and the inside of the rotating groove is rotatably connected to the bottom of the baffle plate 8 through a rotating shaft.
  • a spring is fixedly connected between the outside of the sewage tank 1 and the outside of the rotating frame 15 to ensure the vertical state between the sewage tank 1 and the rotating frame 15, and the outside of the arc rack 14 is meshed with the outside of the linear rack 13.
  • the bottom of the rotating groove is arranged to be inclined outwards.
  • the first telescopic rod 9 lifts the first filter plate 10 upward, separating the straight rack 13 from the arc rack 14, and the baffle plate 8 rotates under the gravity of the load-bearing frame 16, so that the outside of the baffle plate 8 contacts the inside of the rotating groove, and the load-bearing frame 16 rotates along the rotating frame 15.
  • large impurities on the top of the first filter plate 10 flow into the collection bag outside the load-bearing frame 16 through the inclined surfaces on both sides of the first filter plate 10, so that large impurities in the sewage can be filtered and collected, thereby improving the purification efficiency of the purified liquid.
  • the extrusion mechanism 3 includes an adjusting frame 17, and a second filter plate 18 is slidably connected inside the adjusting frame 17.
  • Sliding grooves 19 are provided on the left and right sides of the second filter plate 18.
  • Blocks 20 are fixedly connected to the left and right sides of the inner surface of the adjusting frame 17 and located inside the sliding grooves 19, and the inside of the sliding grooves 19 is slidably connected to the outside of the block 20.
  • a spring 21 is fixedly connected between the left side of the right sliding groove 19 and the left side of the right block 20.
  • a second filter hole 22 is provided at the top of the second filter plate 18 and below the first filter hole 11, and a tilting block 24 is provided on the front side of the bottom of the second filter plate 18.
  • the first telescopic rod 9 pushes the first filter plate 10 downward, and when the inclined surface of the inclined groove 50 contacts the inclined surface of the inclined block 24, the inclined groove 50 moves the second filter plate 18 along the blocking block 20 through the inclined block 24, so that the second filter plate 18 blocks the first filter hole 11, so that the first telescopic rod 9 can push the second filter plate 18 to move to the bottom of the sewage tank 1, squeeze the impurities inside the sewage tank 1, and improve the separation efficiency of sewage and impurities inside the sewage tank 1.
  • the cleaning mechanism 4 includes a cleaning chamber 25, a sealing groove 23 is provided on the top of the cleaning chamber 25, and a sealing plate 26 is slidably connected inside the sealing groove 23, a second telescopic rod 27 is fixedly connected to the rear side of the cleaning chamber 25 through a fixed block, the model of the second telescopic rod 27 is ANT-26, the second telescopic rod 27 is electrically connected to an external power supply, and is controlled by a control switch, the telescopic end of the second telescopic rod 27 is fixedly connected to the right side of the sealing plate 26 through a fixed block, the top of the left side of the inner surface of the cleaning chamber 25 is rotatably connected to a cleaning plate 28 through a rotating shaft, the front and rear sides of the left side of the inner surface of the cleaning chamber 25 and located below the cleaning plate 28 are rotatably connected to a third telescopic rod 29 through a rotating block, and the third telescopic rod 29
  • the model is
  • the model of the first motor 30 is SL57S2, and the first motor 30 is electrically connected to a rechargeable battery not shown in the figure, and is controlled by a control switch.
  • the output end of the first motor 30 passes through and extends to the side of the cleaning plate 28 close to the second filter plate 18, and the output end of the first motor 30 is fixedly connected to a cleaning disk 31, and a cleaning brush is installed on the outside of the cleaning disk 31.
  • the bottom of the inner surface of the cleaning bin 25 is slidably connected to a collecting bin 32.
  • the second telescopic rod 27 drives the sealing plate 26 to move, so that the impurities on the top of the sealing plate 26 fall into the inside of the collecting bin 32, and the third telescopic rod 29 is extended, and the third telescopic rod 29 drives the cleaning plate 28 to rotate, and the cleaning plate 28 is moved to the bottom of the sewage bin 1, and the first motor 30 is started, and the first motor 30 drives the cleaning disk 31 to rotate, and the cleaning brush outside the cleaning disk 31 cleans the impurities inside the second filter hole 22, so that the impurities can be dropped into the inside of the collecting bin 32 by moving the sealing plate 26, thereby preventing impurities from accumulating inside the sewage bin 1, and providing a clean environment for the next sewage treatment.
  • the stirring mechanism 5 includes a second motor 33 and a rotating cylinder 34
  • the outside of the second motor 33 is fixedly connected to the outside of the telescopic end of the first telescopic rod 9 through a fixed block
  • the outside of the output end of the second motor 33 is fixedly connected to the first gear 35
  • the model of the second motor 33 is SL57S2
  • the second motor 33 is electrically connected to the repeatedly rechargeable battery not shown in the figure, and is controlled by a control switch
  • the top of the outer surface of the rotating cylinder 34 is fixedly connected to the second gear 36
  • the outside of the second gear 36 is meshed with the outside of the first gear 35
  • the outside of the rotating cylinder 34 is fixedly connected to a plurality of stirring rods 37
  • the inside of the rotating cylinder 34 is slidably connected to the outside of the telescopic end of the first telescopic rod 9, the top and bottom of the rotating cylinder 34 are slidably connected to positioning rings 38, the insides of the two sets of positioning
  • the second motor 33 drives the first gear 35 to rotate, the first gear 35 drives the second gear 36 to rotate through the meshing connection, and the second gear 36 drives the stirring rod 37 to rotate through the rotating cylinder 34, so that the internal purified liquid of the sewage tank 1 is fully integrated with the sewage.
  • the pumping mechanism 6 includes a pumping frame 41, the bottom of the pumping frame 41 is fixedly connected to the top of the sewage tank 1, and a water pump 42 is fixedly connected to the top of the pumping frame 41.
  • the model of the water pump 42 is GMSW252-K.
  • the water pump 42 is electrically connected to a rechargeable battery (not shown in the figure), and is controlled by a control switch.
  • the water inlet end of the water pump 42 is connected to a pumping tank 43 through a pipeline, and a water suction hole 44 is provided at the bottom of the pumping tank 43.
  • a filter screen 45 is fixedly connected to the outside of the pumping tank 43, and a water outlet end of the water pump 42 is connected through a water outlet pipe 46, and a valve is installed on the outside of the water outlet pipe 46.
  • the water pump 42 is started by controlling the switch, and the water pump 42 pumps out the clean liquid inside the sewage tank 1 through the water pumping tank 43 and the water suction hole 44.
  • the bottom of the first filter plate 10 is fixedly connected to the top of the adjustment frame 17 , and the outside of the first filter plate 10 and the front and rear sides of the adjustment frame 17 are slidably connected to the inside of the sewage tank 1 .
  • an inclined groove 50 is formed on the top of the sealing plate 26 , and an inclined surface of the inclined groove 50 is slidably connected to an inclined surface of the inclined block 24 .
  • a material storage bin 47 is fixedly connected to the top of the support plate 7 and located in front of the first telescopic rod 9, and an air pump 48 is fixedly connected to the top of the material storage bin 47.
  • the model of the air pump 48 is VAP2300NF1.
  • the air pump 48 is electrically connected to a rechargeable battery (not shown in the figure) and is controlled by a control switch.
  • the air inlet end of the air pump 48 is connected to a suction pipe 49, one end of the suction pipe 49 is connected to the interior of the material storage bin 47, and the air outlet end of the air pump 48 is connected to one end of the connecting pipe 40.
  • a pouring hole is provided at the top of the storage bin 47 , and the purified liquid can be poured into the interior of the storage bin 47 through the pouring hole.
  • the air pump 48 is started by controlling the switch, and the air pump 48 flows the purified liquid inside the storage bin 47 into the sewage bin 1 through the connecting pipe 40 and the discharge pipe 39 .
  • a method for using an intelligent sewage treatment system comprises the following steps:
  • Step 1 sewage filtration: extend the first telescopic rod 9 by controlling the switch, the first telescopic rod 9 moves the first filter plate 10 downward, the linear rack 13 is meshed with the arc rack 14, the baffle plate 8 is placed vertically with the first filter plate 10, the collecting bag is put inside the load-bearing frame 16, and the sewage is poured into the sewage tank 1.
  • the sewage flows into the sewage tank 1 through the first filter hole 11 and the second filter hole 22. Large impurities in the sewage will remain on the top of the first filter plate 10.
  • the first telescopic rod 9 is retracted by controlling the switch, and the first telescopic rod 9 lifts the first filter plate 10 upward.
  • the baffle plate 8 rotates under the gravity of the load-bearing frame 16, so that the outside of the baffle plate 8 contacts the inside of the rotating groove, and the load-bearing frame 16 rotates along the rotating frame 15.
  • the large impurities on the top of the first filter plate 10 flow into the collection bag outside the load-bearing frame 16 through the inclined surfaces on both sides of the first filter plate 10.
  • Step 2 sewage purification: extend the first telescopic rod 9 by controlling the switch, the first telescopic rod 9 pushes the first filter plate 10 downward, so that the linear rack 13 is meshed and connected with the arc rack 14, and the baffle plate 8 is rotated.
  • the baffle plate 8 rotates under the gravity of the load-bearing frame 16, and the large impurities remaining on the top of the baffle plate 8 are vibrated and fall into the collection bag.
  • the first telescopic rod 9 drives the stirring rod 37 to move below the sewage, the first telescopic rod 9 is stopped from being extended, and the air pump 48 is started by controlling the switch.
  • the air pump 48 flows the purified liquid inside the storage bin 47 into the sewage bin 1 through the connecting pipe 40 and the discharge pipe 39.
  • the second motor 33 is started by controlling the switch, and the second motor 33 drives the first gear 35 to rotate.
  • the first gear 35 drives the second gear 36 to rotate through the meshing connection.
  • the second gear 36 drives the stirring rod 37 to rotate through the rotating cylinder 34, so that the purified liquid inside the sewage bin 1 is fully integrated with the sewage.
  • Step 3 sewage squeezing: after the purified liquid and the sewage are fully integrated for a period of time, most of the impurities in the sewage fall on the top of the sealing plate 26 through the first filter hole 11, and the water pump 42 is started by the control switch, and the water pump 42 extracts the liquid after the clean stop inside the sewage tank 1 through the pumping tank 43 and the suction hole 44.
  • the first telescopic rod 9 is extended by the control switch, and the first telescopic rod 9 pushes the first filter plate 10 downward.
  • the inclined groove 50 moves the second filter plate 18 along the block 20 through the inclined block 24, so that the second filter plate 18 blocks the first filter hole 11, so that the second filter plate 18 squeezes the impurities inside the sewage tank 1;
  • Step 4 impurity treatment: After the impurities are squeezed out, the second telescopic rod 27 is extended by the control switch, and the second telescopic rod 27 drives the sealing plate 26 to move, so that the impurities on the top of the sealing plate 26 fall into the inside of the collecting bin 32, and the third telescopic rod 29 is extended by the control switch, and the third telescopic rod 29 drives the cleaning plate 28 to rotate, and the cleaning plate 28 is moved to the bottom of the sewage bin 1, and the first motor 30 is started by the control switch, and the first motor 30 drives the cleaning disk 31 to rotate, and the cleaning brush outside the cleaning disk 31 cleans the impurities inside the second filter hole 22.
  • the collecting bin 32 is pulled out from the inside of the cleaning bin 25.

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  • Life Sciences & Earth Sciences (AREA)
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Abstract

The present invention relates to the technical field of waste water treatment. Disclosed are a smart wastewater treatment system and a method for using same. The system comprises a wastewater bin, wherein a front side of the wastewater bin is fixedly connected to a filtering mechanism by means of a fixing block; the bottom of the filtering mechanism is fixedly connected to a pressing mechanism; the bottom of the wastewater bin is fixedly connected to a cleaning mechanism; and a stirring mechanism is fixedly connected in the wastewater bin and is positioned outside the pressing mechanism. In the smart wastewater treatment system and the method for using same, a first filtering plate is lifted upwards by means of a first telescopic rod so as to separate linear racks from cambered racks, and shielding plates rotate under the gravity of load-bearing frames, such that outer portions of shielding plates are in contact with inner portions of rotary slots, and the load-bearing frames rotate along rotary frames; and bulk impurities at the top of the first filtering plate flow, via slopes on two sides of the first filtering plate, into collecting bags outside the load-bearing frames, such that the bulk impurities in the wastewater can be filtered and collected, thereby improving the purification efficiency of a purifying solution.

Description

一种智能型污水处理系统及其使用方法An intelligent sewage treatment system and its use method 技术领域Technical Field
本发明涉及污水处理技术领域,具体为一种智能型污水处理系统及其使用方法。The present invention relates to the technical field of sewage treatment, and in particular to an intelligent sewage treatment system and a use method thereof.
背景技术Background technique
污水是指受一定污染的来自生活和生产的排出水,丧失了原来使用功能的水简称为污水,主要是生活上使用后的水,其含有有机物较多,处理较易,污水处理为使污水达到排入某一水体或再次使用的水质要求对其进行净化的过程。Sewage refers to the discharged water from life and production that is polluted to a certain extent. Water that has lost its original function is referred to as sewage. It is mainly water used in life. It contains more organic matter and is easier to handle. Sewage treatment is the process of purifying sewage so that it meets the water quality requirements for discharge into a certain water body or reuse.
如在中国专利CN214513082U的中通过设置净化罐、排污管、排污阀、一级滤网和二级滤网,从而污水在进入供水装置前,会通过一级滤网和二级滤网进行过滤,不会堵塞供水装置的管道,而过滤出来的垃圾或者杂质,会通过排污管排出,设置流量计、异常反馈模块、指令下达模块、紧急停车模块声光报警模块,从而可以知道流量是否正常,流量过小时,会停机报警,防止设备空转保护设备,并且提醒使用者净化罐内部的垃圾杂质过多,需要清理,从而一直保证设备正常运行,提高效率。For example, in Chinese patent CN214513082U, a purification tank, a sewage pipe, a sewage valve, a primary filter and a secondary filter are provided, so that sewage will be filtered through the primary filter and the secondary filter before entering the water supply device, and will not block the pipe of the water supply device, and the filtered garbage or impurities will be discharged through the sewage pipe. A flow meter, an abnormal feedback module, an instruction issuing module, an emergency stop module, and an audio-visual alarm module are provided, so that it can be known whether the flow is normal. If the flow is too small, the machine will stop and alarm to prevent the equipment from idling and protect the equipment, and remind the user that there are too many garbage and impurities in the purification tank and they need to be cleaned, thereby ensuring the normal operation of the equipment and improving efficiency.
在上述专利中虽然可以知道流量是否正常,提醒使用者净化罐内部的垃圾杂质过多,但是污水倒入污水仓内部的时候,未对大型杂物进行过滤,污水中的大块杂质会降低净化液净化污水的效率,为此提供一种智能型污水处理系统及其使用方法,能够将污水中的大块杂质过滤和收集,提高净化液的净化效率。In the above patent, although it is possible to know whether the flow rate is normal and remind the user that there are too many garbage impurities in the purification tank, when the sewage is poured into the sewage tank, large debris is not filtered. The large impurities in the sewage will reduce the efficiency of the purification liquid in purifying the sewage. Therefore, an intelligent sewage treatment system and a method of use thereof are provided, which can filter and collect large impurities in the sewage and improve the purification efficiency of the purification liquid.
发明内容Summary of the invention
针对现有技术的不足,本发明提供了一种智能型污水处理系统及其使用方法,解决了污水中的大块杂质会降低净化液净化污水效率的问题。In view of the deficiencies of the prior art, the present invention provides an intelligent sewage treatment system and a method for using the same, which solves the problem that large impurities in sewage reduce the efficiency of sewage purification by purification liquid.
为实现以上目的,本发明通过以下技术方案予以实现:一种智能型污水处理系统,包括污水仓,所述污水仓的前侧通过固定块固定连接有过滤机构,所述过滤机构的底部固定连接有挤压机构,所述污水仓的底部固定连接有清理机构,所述污水仓的内部且位于挤压机构的外部固定连接有搅拌机构,所述污水仓的内部且位于过滤机构的后侧固定连接有抽水机构。To achieve the above objectives, the present invention is implemented through the following technical solutions: an intelligent sewage treatment system, including a sewage tank, the front side of the sewage tank is fixedly connected to a filtering mechanism through a fixed block, the bottom of the filtering mechanism is fixedly connected to an extrusion mechanism, the bottom of the sewage tank is fixedly connected to a cleaning mechanism, the inside of the sewage tank and the outside of the extrusion mechanism are fixedly connected to a stirring mechanism, and the inside of the sewage tank and the rear side of the filtering mechanism are fixedly connected to a pumping mechanism.
本发明进一步设置为:所述过滤机构包括支撑板和两组遮挡板,所述支撑板的顶部固定连接有第一伸缩杆,所述第一伸缩杆的伸缩端贯穿并延伸至支撑板的内部,所述第一伸缩杆的伸缩端固定连接有第一过滤板,所述第一过滤板左右两侧的斜面均开设有若干第一过滤孔,所述第一过滤板左右两侧的前后两侧均开设有引导槽,所述引导槽的内部固定连接有直线齿条,两组所述遮挡板的底部且位于引导槽的一侧固定连接有弧形齿条,两组所述遮挡板的外部且远离第一伸缩杆的一侧均固定连接有转动架,所述转动架的内部通过转轴转动连接有负重架。The present invention is further configured as follows: the filtering mechanism includes a support plate and two groups of baffle plates, the top of the support plate is fixedly connected to a first telescopic rod, the telescopic end of the first telescopic rod passes through and extends to the interior of the support plate, the telescopic end of the first telescopic rod is fixedly connected to a first filter plate, the inclined surfaces on the left and right sides of the first filter plate are provided with a plurality of first filter holes, the front and rear sides of the left and right sides of the first filter plate are provided with guide grooves, the inside of the guide grooves is fixedly connected with a straight rack, the bottom of the two groups of baffle plates and one side of the guide grooves are fixedly connected with an arc rack, the outside of the two groups of baffle plates and one side away from the first telescopic rod are fixedly connected with a rotating frame, and the inside of the rotating frame is rotatably connected with a load-bearing frame via a rotating shaft.
所述支撑板的外部与污水仓的外部固定连接,所述污水仓顶部的左右两侧均开设有转动槽,且转动槽的内部与遮挡板的底部通过转轴转动连接,所述污水仓的外部与转动架的外部之间固定连接有弹簧,所述弧形齿条的外部与直线齿条的外部啮合连接。The outside of the support plate is fixedly connected to the outside of the sewage bin, and a rotating groove is provided on both sides of the top of the sewage bin, and the inside of the rotating groove is rotatably connected to the bottom of the baffle plate through a rotating shaft. A spring is fixedly connected between the outside of the sewage bin and the outside of the rotating frame, and the outside of the arc-shaped rack is meshed with the outside of the linear rack.
通过采用上述技术方案,收缩第一伸缩杆,第一伸缩杆将第一过滤板向上提起,使直线齿条与弧形齿条分离,遮挡板在负重架的重力下转动,让遮挡板的外部与转动槽的内部接触,负重架沿着转动架转动,同时第一过滤板顶部的大块杂质通过第一过滤板两侧的斜面流入负重架外部的收集袋中。By adopting the above technical solution, the first telescopic rod is retracted, and the first telescopic rod lifts the first filter plate upward, so that the straight rack and the arc rack are separated, and the baffle plate rotates under the gravity of the load-bearing frame, so that the outside of the baffle plate contacts the inside of the rotating groove, and the load-bearing frame rotates along the rotating frame. At the same time, large impurities on the top of the first filter plate flow into the collection bag outside the load-bearing frame through the inclined surfaces on both sides of the first filter plate.
本发明进一步设置为:所述挤压机构包括调节框,所述调节框的内部滑动连接有第二过滤板,所述第二过滤板的左右两侧均开设有滑动槽,所述调节框内表面的左右两侧且位于滑动槽的内部均固定连接有卡块,且滑动槽的内部与卡块的外部滑动连接,右侧所述滑动槽内部的左侧与右侧卡块的左侧之间固定连接有弹簧,所述第二过滤板的顶部且位于第一过滤孔的下方开设有第二过滤孔,所述第二过滤板底部的前侧开设有倾斜块。The present invention is further configured as follows: the extrusion mechanism includes an adjusting frame, a second filter plate is slidably connected inside the adjusting frame, sliding grooves are provided on the left and right sides of the second filter plate, clamping blocks are fixedly connected on the left and right sides of the inner surface of the adjusting frame and located inside the sliding grooves, and the inside of the sliding groove is slidably connected to the outside of the clamping block, a spring is fixedly connected between the left side of the inside of the sliding groove on the right side and the left side of the clamping block on the right side, a second filter hole is provided on the top of the second filter plate and below the first filter hole, and an inclined block is provided on the front side of the bottom of the second filter plate.
通过采用上述技术方案,伸长第一伸缩杆,第一伸缩杆将第一过滤板向下推动,当倾斜块的倾斜面与倾斜槽的倾斜面接触时,倾斜块将第二过滤板通过滑动槽沿着卡块移动,让第二过滤板将第一过滤孔堵住,使第二过滤板将污水仓内部的杂质挤压。By adopting the above technical solution, the first telescopic rod is extended, and the first telescopic rod pushes the first filter plate downward. When the inclined surface of the inclined block contacts the inclined surface of the inclined groove, the inclined block moves the second filter plate along the blocking block through the sliding groove, so that the second filter plate blocks the first filter hole, and the second filter plate squeezes out the impurities inside the sewage tank.
本发明进一步设置为:所述清理机构包括清理仓,所述清理仓的顶部开设有密封槽,且密封槽的内部滑动连接有密封板,所述清理仓的后侧通过固定块固定连接有第二伸缩杆,所述第二伸缩杆的伸缩端与密封板的右侧通过固定块固定连接,所述清理仓内表面左侧的顶部通过转轴转动连接有清理板,所述清理仓内表面左侧的前后两侧且位于清理板的下方均通过转动块转动连接有第三伸缩杆,所述第三伸缩杆的伸缩端与清理板的外部通过转动块转动连接,所述清理板远离第二过滤板的一侧通过固定块固定连接有第一电机,所述第一电机的输出端贯穿并延伸至清理板接近第二过滤板的一侧,所述第一电机的输出端固定连接有清理盘,所述清理盘的外部安装有清理刷,所述清理仓内表面的底部滑动连接有收集仓。The present invention is further configured as follows: the cleaning mechanism includes a cleaning bin, a sealing groove is provided on the top of the cleaning bin, and a sealing plate is slidably connected inside the sealing groove, the rear side of the cleaning bin is fixedly connected to a second telescopic rod through a fixed block, the telescopic end of the second telescopic rod is fixedly connected to the right side of the sealing plate through a fixed block, the top of the left side of the inner surface of the cleaning bin is rotatably connected to the cleaning plate through a rotating shaft, the front and rear sides of the left side of the inner surface of the cleaning bin and located below the cleaning plate are rotatably connected to a third telescopic rod through a rotating block, the telescopic end of the third telescopic rod is rotatably connected to the outside of the cleaning plate through a rotating block, the side of the cleaning plate away from the second filter plate is fixedly connected to the first motor through a fixed block, the output end of the first motor passes through and extends to the side of the cleaning plate close to the second filter plate, the output end of the first motor is fixedly connected to a cleaning disk, a cleaning brush is installed on the outside of the cleaning disk, and the bottom of the inner surface of the cleaning bin is slidably connected to the collecting bin.
所述密封板的顶部开设有倾斜槽,所述倾斜槽的倾斜面与倾斜块的倾斜面滑动连接。The top of the sealing plate is provided with an inclined groove, and the inclined surface of the inclined groove is slidably connected with the inclined surface of the inclined block.
所述第一过滤板的底部与调节框的顶部固定连接,所述第一过滤板的外部和调节框的前后两侧均与污水仓的内部滑动连接。The bottom of the first filter plate is fixedly connected to the top of the adjustment frame, and the outside of the first filter plate and the front and rear sides of the adjustment frame are slidably connected to the inside of the sewage tank.
通过采用上述技术方案,伸长第二伸缩杆,第二伸缩杆带动密封板移动,使密封板顶部的杂质落在收集仓的内部,通过控制开关伸长第三伸缩杆,第三伸缩杆带动清理板转动,将清理板移动到污水仓的底部,通过控制开关启动第一电机,第一电机带动清理盘转动,清理盘外部的清理刷将第二过滤孔内部的杂质清理。By adopting the above technical solution, the second telescopic rod is extended, and the second telescopic rod drives the sealing plate to move, so that impurities on the top of the sealing plate fall into the inside of the collecting bin, and the third telescopic rod is extended by the control switch, and the third telescopic rod drives the cleaning plate to rotate, and the cleaning plate is moved to the bottom of the sewage bin, and the first motor is started by the control switch, and the first motor drives the cleaning disk to rotate, and the cleaning brush outside the cleaning disk cleans the impurities inside the second filter hole.
本发明进一步设置为:所述搅拌机构包括第二电机和转动筒,所述第二电机的外部通过固定块与第一伸缩杆伸缩端的外部固定连接,所述第二电机输出端的外部固定连接有第一齿轮,所述转动筒外表面的顶部固定连接有第二齿轮,所述第二齿轮的外部与第一齿轮的外部啮合连接,所述转动筒的外部固定连接若干搅拌杆,所述转动筒的内部与第一伸缩杆伸缩端的外部滑动连接,所述转动筒的顶部和底部均滑动连接有定位环,两组所述定位环的内部与第一伸缩杆伸缩端的外部固定连接,所述搅拌杆的外部固定连接有放料管,所述放料管的顶部连通有连接管。The present invention is further configured as follows: the stirring mechanism includes a second motor and a rotating drum, the outside of the second motor is fixedly connected to the outside of the telescopic end of the first telescopic rod through a fixed block, the outside of the output end of the second motor is fixedly connected to a first gear, the top of the outer surface of the rotating drum is fixedly connected to a second gear, the outside of the second gear is meshingly connected to the outside of the first gear, a plurality of stirring rods are fixedly connected to the outside of the rotating drum, the inside of the rotating drum is slidingly connected to the outside of the telescopic end of the first telescopic rod, the top and bottom of the rotating drum are both slidingly connected to positioning rings, the insides of the two groups of positioning rings are fixedly connected to the outside of the telescopic end of the first telescopic rod, the outside of the stirring rod is fixedly connected to a discharge pipe, and the top of the discharge pipe is connected to a connecting pipe.
通过采用上述技术方案,第二电机带动第一齿轮转动,第一齿轮通过啮合连接传动第二齿轮转动,第二齿轮通过转动筒带动搅拌杆转动,将污水仓的内部净化液与污水充分融合。By adopting the above technical solution, the second motor drives the first gear to rotate, the first gear drives the second gear to rotate through meshing connection, and the second gear drives the stirring rod to rotate through the rotating cylinder, so that the internal purified liquid of the sewage tank is fully integrated with the sewage.
本发明进一步设置为:所述抽水机构包括抽水架,所述抽水架的底部与污水仓的顶部固定连接,所述抽水架的顶部固定连接有水泵,所述水泵的进水端通过管道连通有抽水仓,所述抽水仓的底部开设有吸水孔,所述抽水仓的外部固定连接有过滤网,所述水泵的出水端连通有出水管,且出水管的外部安装有阀门。The present invention is further configured as follows: the pumping mechanism includes a pumping frame, the bottom of the pumping frame is fixedly connected to the top of the sewage tank, the top of the pumping frame is fixedly connected to a water pump, the water inlet end of the water pump is connected to the pumping tank through a pipeline, the bottom of the pumping tank is provided with a water suction hole, the outside of the pumping tank is fixedly connected to a filter screen, the water outlet end of the water pump is connected to a water outlet pipe, and a valve is installed on the outside of the water outlet pipe.
通过采用上述技术方案,启动水泵和打开阀门,水泵通过抽水仓和吸水孔将污水仓内部净止后液体抽走。By adopting the above technical solution, the water pump is started and the valve is opened, and the water pump draws out the clean liquid inside the sewage tank through the pumping tank and the suction hole.
本发明进一步设置为:所述支撑板的顶部且位于第一伸缩杆的前侧固定连接有储料仓,所述储料仓的顶部固定连接有气泵,所述气泵的进气端连通有吸料管,所述吸料管的一端与储料仓的内部连通,所述气泵的出气端与连接管的一端连通。The present invention is further configured as follows: a material storage bin is fixedly connected to the top of the support plate and located in front of the first telescopic rod, an air pump is fixedly connected to the top of the material storage bin, an air inlet end of the air pump is connected to a suction pipe, one end of the suction pipe is connected to the interior of the material storage bin, and an air outlet end of the air pump is connected to one end of a connecting pipe.
通过采用上述技术方案,启动气泵,气泵将储料仓内部的净化液通过连接管和放料管流入污水仓的内部。By adopting the above technical solution, the air pump is started, and the air pump flows the purified liquid inside the storage bin into the sewage bin through the connecting pipe and the discharge pipe.
本发明还公开了一种智能型污水处理系统的使用方法,具体包括以下步骤:The present invention also discloses a method for using the intelligent sewage treatment system, which specifically comprises the following steps:
步骤一、污水过滤:通过控制开关伸长第一伸缩杆,第一伸缩杆将第一过滤板向下移动,让直线齿条与弧形齿条啮合连接,使遮挡板与第一过滤板垂直放置,将收集袋套在负重架的内部,在将污水倒入污水仓的内部,污水通过第一过滤孔和第二过滤孔流入污水仓的内部,污水中的大块杂质会残留在第一过滤板的顶部,通过控制开关收缩第一伸缩杆,第一伸缩杆将第一过滤板向上提起,当直线齿条与弧形齿条分离时,遮挡板在负重架的重力下转动,让遮挡板的外部与转动槽的内部接触,负重架沿着转动架转动,同时第一过滤板顶部的大块杂质通过第一过滤板两侧的斜面流入负重架外部的收集袋中;Step 1, sewage filtration: extend the first telescopic rod by controlling the switch, the first telescopic rod moves the first filter plate downward, the linear rack is meshed with the arc-shaped rack, the baffle plate is placed vertically with the first filter plate, the collection bag is put inside the weight frame, and the sewage is poured into the sewage tank, the sewage flows into the sewage tank through the first filter hole and the second filter hole, and the large impurities in the sewage will remain on the top of the first filter plate, and the first telescopic rod is retracted by controlling the switch, the first telescopic rod lifts the first filter plate upward, when the linear rack is separated from the arc-shaped rack, the baffle plate rotates under the gravity of the weight frame, the outside of the baffle plate contacts the inside of the rotating groove, the weight frame rotates along the rotating frame, and at the same time, the large impurities on the top of the first filter plate flow into the collection bag outside the weight frame through the inclined surfaces on both sides of the first filter plate;
步骤二、污水净置:通过控制开关伸长第一伸缩杆,第一伸缩杆将第一过滤板向下推动,使直线齿条与弧形齿条啮合连接,将遮挡板转动,当直线齿条与弧形齿条分离,遮挡板在负重架的重力下转动,将遮挡板顶部残留的大块杂质震动,并落在收集袋中,当第一伸缩杆带动搅拌杆移动到污水下方时,停止伸长第一伸缩杆,通过控制开关启动气泵,气泵将储料仓内部的净化液通过连接管和放料管流入污水仓的内部,同时通过控制开关启动第二电机,第二电机带动第一齿轮转动,第一齿轮通过啮合连接传动第二齿轮转动,第二齿轮通过转动筒带动搅拌杆转动,将污水仓的内部净化液与污水充分融合;Step 2, sewage purification: extend the first telescopic rod through the control switch, the first telescopic rod pushes the first filter plate downward, the linear rack is meshed with the arc rack, and the baffle is rotated. When the linear rack is separated from the arc rack, the baffle rotates under the gravity of the load-bearing frame, and the large impurities remaining on the top of the baffle are vibrated and fall into the collection bag. When the first telescopic rod drives the stirring rod to move below the sewage, stop extending the first telescopic rod, start the air pump through the control switch, and the air pump flows the purified liquid inside the storage bin into the sewage bin through the connecting pipe and the discharge pipe. At the same time, start the second motor through the control switch, the second motor drives the first gear to rotate, the first gear drives the second gear to rotate through the meshing connection, and the second gear drives the stirring rod to rotate through the rotating cylinder, so that the purified liquid inside the sewage bin is fully integrated with the sewage;
步骤三、污水挤压:当净化液与污水充分融合一段时间后,污水中的杂质大部分通过第一过滤孔落在密封板的顶部,通过控制开关启动水泵,水泵通过抽水仓和吸水孔将污水仓内部净止后液体抽走,同时通过控制开关伸长第一伸缩杆,第一伸缩杆将第一过滤板向下推动,当倾斜槽的倾斜面与倾斜块的倾斜面接触时,倾斜槽通过倾斜块将第二过滤板沿着卡块移动,让第二过滤板将第一过滤孔堵住,使第二过滤板将污水仓内部的杂质挤压;Step 3, sewage squeezing: After the purified liquid and sewage are fully integrated for a period of time, most of the impurities in the sewage fall on the top of the sealing plate through the first filter hole, and the water pump is started by the control switch. The water pump extracts the liquid after cleaning inside the sewage tank through the pumping tank and the suction hole. At the same time, the first telescopic rod is extended by the control switch, and the first telescopic rod pushes the first filter plate downward. When the inclined surface of the inclined groove contacts the inclined surface of the inclined block, the inclined groove moves the second filter plate along the card block through the inclined block, so that the second filter plate blocks the first filter hole, so that the second filter plate squeezes the impurities inside the sewage tank;
步骤四、杂质处理:杂质挤压完成后,通过控制开关伸长第二伸缩杆,第二伸缩杆带动密封板移动,使密封板顶部的杂质落在收集仓的内部,通过控制开关伸长第三伸缩杆,第三伸缩杆带动清理板转动,将清理板移动到污水仓的底部,通过控制开关启动第一电机,第一电机带动清理盘转动,清理盘外部的清理刷将第二过滤孔内部的杂质清理,当收集仓内部的杂质收集完成后,将收集仓从清理仓内部的拉出。Step 4, impurity treatment: After the impurities are squeezed out, the second telescopic rod is extended by the control switch, and the second telescopic rod drives the sealing plate to move, so that the impurities on the top of the sealing plate fall into the inside of the collecting bin, and the third telescopic rod is extended by the control switch, and the third telescopic rod drives the cleaning plate to rotate, and the cleaning plate is moved to the bottom of the sewage bin, and the first motor is started by the control switch, and the first motor drives the cleaning disk to rotate, and the cleaning brush outside the cleaning disk cleans the impurities inside the second filter hole. When the impurities inside the collecting bin are collected, the collecting bin is pulled out from the inside of the cleaning bin.
本发明提供了一种智能型污水处理系统及其使用方法。具备以下有益效果:The present invention provides an intelligent sewage treatment system and a method for using the same. The system has the following beneficial effects:
(1)该智能型污水处理系统及其使用方法,通过收缩第一伸缩杆,第一伸缩杆将第一过滤板向上提起,使直线齿条与弧形齿条分离,遮挡板在负重架的重力下转动,让遮挡板的外部与转动槽的内部接触,负重架沿着转动架转动,同时第一过滤板顶部的大块杂质通过第一过滤板两侧的斜面流入负重架外部的收集袋中,这样可以将污水的大块杂质过滤和收集,提高净化液的净化效率。(1) The intelligent sewage treatment system and its use method, by retracting the first telescopic rod, the first telescopic rod lifts the first filter plate upward, so that the linear rack and the arc rack are separated, and the shielding plate rotates under the gravity of the load-bearing frame, so that the outside of the shielding plate contacts the inside of the rotating groove, and the load-bearing frame rotates along the rotating frame. At the same time, large impurities on the top of the first filter plate flow into the collection bag outside the load-bearing frame through the inclined surfaces on both sides of the first filter plate. In this way, large impurities in the sewage can be filtered and collected, thereby improving the purification efficiency of the purified liquid.
(2)该智能型污水处理系统及其使用方法,通过伸长第一伸缩杆,第一伸缩杆将第一过滤板向下推动,当倾斜块的倾斜面与倾斜槽的倾斜面接触时,倾斜槽通过倾斜块将第二过滤板沿着卡块移动,让第二过滤板将第一过滤孔堵住,这样可以使第一伸缩杆推动第二过滤板向污水仓的底部移动,将污水仓内部的杂质挤压,提高污水仓内部的污水与杂质分离效率。(2) The intelligent sewage treatment system and its use method extend the first telescopic rod, which pushes the first filter plate downward. When the inclined surface of the inclined block contacts the inclined surface of the inclined groove, the inclined groove moves the second filter plate along the blocking block through the inclined block, so that the second filter plate blocks the first filter hole. In this way, the first telescopic rod pushes the second filter plate to move to the bottom of the sewage bin, squeezing out impurities inside the sewage bin, thereby improving the efficiency of separating sewage and impurities inside the sewage bin.
(3)该智能型污水处理系统及其使用方法,通过伸长第二伸缩杆,第二伸缩杆带动密封板移动,使密封板顶部的杂质落在收集仓的内部,伸长第三伸缩杆,第三伸缩杆带动清理板转动,将清理板移动到污水仓的底部,启动第一电机,第一电机带动清理盘转动,清理盘外部的清理刷将第二过滤孔内部的杂质清理,这样可以通过移动密封板将杂质落在收集仓的内部,防止杂质积累在污水仓的内部,为下次污水处理提供干净的环境。(3) The intelligent sewage treatment system and its use method extend the second telescopic rod, which drives the sealing plate to move so that impurities on the top of the sealing plate fall into the inside of the collection bin, extend the third telescopic rod, which drives the cleaning plate to rotate and move the cleaning plate to the bottom of the sewage bin, start the first motor, which drives the cleaning disk to rotate, and the cleaning brush on the outside of the cleaning disk cleans the impurities inside the second filter hole. In this way, the impurities can fall into the inside of the collection bin by moving the sealing plate, preventing the impurities from accumulating inside the sewage bin, thereby providing a clean environment for the next sewage treatment.
附图说明BRIEF DESCRIPTION OF THE DRAWINGS
图1为本发明的立体结构示意图。FIG1 is a schematic diagram of the three-dimensional structure of the present invention.
图2为本发明过滤机构的结构示意图。FIG. 2 is a schematic structural diagram of the filtering mechanism of the present invention.
图3为本发明第一过滤板的结构示意图。FIG3 is a schematic structural diagram of the first filter plate of the present invention.
图4为本发明挤压机构的结构示意图。FIG. 4 is a schematic structural diagram of the extrusion mechanism of the present invention.
图5为本发明第二过滤板的剖视图。FIG5 is a cross-sectional view of the second filter plate of the present invention.
图6为本发明搅拌机构的结构示意图。FIG. 6 is a schematic structural diagram of the stirring mechanism of the present invention.
图7为本发明清理机构的结构示意图。FIG. 7 is a schematic structural diagram of the cleaning mechanism of the present invention.
图8为本发明密封板的剖视图。FIG. 8 is a cross-sectional view of a sealing plate of the present invention.
图9为本发明抽水机构的结构示意图。FIG. 9 is a schematic structural diagram of the pumping mechanism of the present invention.
图10为本发明过滤网的剖视图。FIG. 10 is a cross-sectional view of the filter screen of the present invention.
图中,1、污水仓;2、过滤机构;3、挤压机构;4、清理机构;5、搅拌机构;6、抽水机构;7、支撑板;8、遮挡板;9、第一伸缩杆;10、第一过滤板;11、第一过滤孔;12、引导槽;13、直线齿条;14、弧形齿条;15、转动架;16、负重架;17、调节框;18、第二过滤板;19、滑动槽;20、卡块;21、弹簧;22、第二过滤孔;23、密封槽;24、倾斜块;25、清理仓;26、密封板;27、第二伸缩杆;28、清理板;29、第三伸缩杆;30、第一电机;31、清理盘;32、收集仓;33、第二电机;34、转动筒;35、第一齿轮;36、第二齿轮;37、搅拌杆;38、定位环;39、放料管;40、连接管;41、抽水架;42、水泵;43、抽水仓;44、吸水孔;45、过滤网;46、出水管;47、储料仓;48、气泵;49、吸料管;50、倾斜槽。In the figure, 1, sewage tank; 2, filtering mechanism; 3, squeezing mechanism; 4, cleaning mechanism; 5, stirring mechanism; 6, pumping mechanism; 7, supporting plate; 8, shielding plate; 9, first telescopic rod; 10, first filter plate; 11, first filter hole; 12, guide groove; 13, linear rack; 14, arc rack; 15, rotating frame; 16, load-bearing frame; 17, adjusting frame; 18, second filter plate; 19, sliding groove; 20, block; 21, spring; 22, second filter hole; 23, sealing groove; 24, tilting block; 25, cleaning Bin; 26, sealing plate; 27, second telescopic rod; 28, cleaning plate; 29, third telescopic rod; 30, first motor; 31, cleaning plate; 32, collecting bin; 33, second motor; 34, rotating cylinder; 35, first gear; 36, second gear; 37, stirring rod; 38, positioning ring; 39, discharge pipe; 40, connecting pipe; 41, pumping rack; 42, water pump; 43, pumping bin; 44, water suction hole; 45, filter screen; 46, water outlet pipe; 47, storage bin; 48, air pump; 49, suction pipe; 50, inclined trough.
实施方式Implementation
下面将结合本发明实施例中的附图,对本发明实施例中的技术方案进行清楚、完整地描述,显然,所描述的实施例仅仅是本发明一部分实施例,而不是全部的实施例。基于本发明中的实施例,本领域普通技术人员在没有做出创造性劳动前提下所获得的所有其他实施例,都属于本发明保护的范围。The following will be combined with the drawings in the embodiments of the present invention to clearly and completely describe the technical solutions in the embodiments of the present invention. Obviously, the described embodiments are only part of the embodiments of the present invention, not all of the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by ordinary technicians in this field without creative work are within the scope of protection of the present invention.
请参阅图1-10,本发明实施例提供一种技术方案:一种智能型污水处理系统,包括污水仓1,污水仓1的前侧通过固定块固定连接有过滤机构2,过滤机构2的底部固定连接有挤压机构3,污水仓1的底部固定连接有清理机构4,污水仓1的内部且位于挤压机构3的外部固定连接有搅拌机构5,污水仓1的内部且位于过滤机构2的后侧固定连接有抽水机构6。Please refer to Figures 1-10. An embodiment of the present invention provides a technical solution: an intelligent sewage treatment system, including a sewage tank 1, a filtering mechanism 2 is fixedly connected to the front side of the sewage tank 1 through a fixed block, a squeezing mechanism 3 is fixedly connected to the bottom of the filtering mechanism 2, a cleaning mechanism 4 is fixedly connected to the bottom of the sewage tank 1, a stirring mechanism 5 is fixedly connected inside the sewage tank 1 and outside the squeezing mechanism 3, and a pumping mechanism 6 is fixedly connected inside the sewage tank 1 and at the rear side of the filtering mechanism 2.
作为优选方案,如图2-3,过滤机构2包括支撑板7和两组遮挡板8,支撑板7的顶部固定连接有第一伸缩杆9,第一伸缩杆9的型号为ANT-26,第一伸缩杆9与外界电源电性连接,且通过控制开关控制,第一伸缩杆9的伸缩端贯穿并延伸至支撑板7的内部,第一伸缩杆9的伸缩端固定连接有第一过滤板10,第一过滤板10左右两侧的斜面均开设有若干第一过滤孔11,第一过滤板10左右两侧的前后两侧均开设有引导槽12,引导槽12的内部固定连接有直线齿条13,两组遮挡板8的底部且位于引导槽12的一侧固定连接有弧形齿条14,两组遮挡板8的外部且远离第一伸缩杆9的一侧均固定连接有转动架15,转动架15的内部通过转轴转动连接有负重架16。As a preferred embodiment, as shown in Figure 2-3, the filtering mechanism 2 includes a support plate 7 and two groups of baffle plates 8, the top of the support plate 7 is fixedly connected with a first telescopic rod 9, the model of the first telescopic rod 9 is ANT-26, the first telescopic rod 9 is electrically connected to an external power supply and is controlled by a control switch, the telescopic end of the first telescopic rod 9 passes through and extends to the interior of the support plate 7, the telescopic end of the first telescopic rod 9 is fixedly connected with a first filter plate 10, the inclined surfaces on the left and right sides of the first filter plate 10 are provided with a plurality of first filter holes 11, the front and rear sides of the left and right sides of the first filter plate 10 are provided with guide grooves 12, the inside of the guide groove 12 is fixedly connected with a straight rack 13, the bottom of the two groups of baffle plates 8 and on one side of the guide groove 12 are fixedly connected with an arc rack 14, the outside of the two groups of baffle plates 8 and on the side away from the first telescopic rod 9 are fixedly connected with a rotating frame 15, and the inside of the rotating frame 15 is rotatably connected with a load-bearing frame 16 through a rotating shaft.
进一步的,直线齿条13的行程让弧形齿条14转动小于60°。Furthermore, the stroke of the linear rack 13 allows the arc rack 14 to rotate less than 60°.
进一步的,两组遮挡板8相对应的一侧倾斜设置。Furthermore, the corresponding sides of the two groups of shielding plates 8 are arranged at an inclination.
进一步的,负重架16的顶部开设有放置槽,放置槽的内部安放有收集袋。Furthermore, a placement groove is provided on the top of the load-bearing frame 16, and a collection bag is placed inside the placement groove.
进一步的,支撑板7的外部与污水仓1的外部固定连接,污水仓1顶部的左右两侧均开设有转动槽,且转动槽的内部与遮挡板8的底部通过转轴转动连接,污水仓1的外部与转动架15的外部之间固定连接有弹簧,用于保证污水仓1和转动架15之间的垂直状态,弧形齿条14的外部与直线齿条13的外部啮合连接。Furthermore, the outside of the support plate 7 is fixedly connected to the outside of the sewage tank 1, and a rotating groove is opened on both sides of the top of the sewage tank 1, and the inside of the rotating groove is rotatably connected to the bottom of the baffle plate 8 through a rotating shaft. A spring is fixedly connected between the outside of the sewage tank 1 and the outside of the rotating frame 15 to ensure the vertical state between the sewage tank 1 and the rotating frame 15, and the outside of the arc rack 14 is meshed with the outside of the linear rack 13.
进一步的,转动槽的底部向外倾斜设置。Furthermore, the bottom of the rotating groove is arranged to be inclined outwards.
进一步的,通过收缩第一伸缩杆9,第一伸缩杆9将第一过滤板10向上提起,使直线齿条13与弧形齿条14分离,遮挡板8在负重架16的重力下转动,让遮挡板8的外部与转动槽的内部接触,负重架16沿着转动架15转动,同时第一过滤板10顶部的大块杂质通过第一过滤板10两侧的斜面流入负重架16外部的收集袋中,这样可以将污水的大块杂质过滤和收集,提高净化液的净化效率。Furthermore, by contracting the first telescopic rod 9, the first telescopic rod 9 lifts the first filter plate 10 upward, separating the straight rack 13 from the arc rack 14, and the baffle plate 8 rotates under the gravity of the load-bearing frame 16, so that the outside of the baffle plate 8 contacts the inside of the rotating groove, and the load-bearing frame 16 rotates along the rotating frame 15. At the same time, large impurities on the top of the first filter plate 10 flow into the collection bag outside the load-bearing frame 16 through the inclined surfaces on both sides of the first filter plate 10, so that large impurities in the sewage can be filtered and collected, thereby improving the purification efficiency of the purified liquid.
作为优选方案,如图4-5,挤压机构3包括调节框17,调节框17的内部滑动连接有第二过滤板18,第二过滤板18的左右两侧均开设有滑动槽19,调节框17内表面的左右两侧且位于滑动槽19的内部均固定连接有卡块20,且滑动槽19的内部与卡块20的外部滑动连接,右侧滑动槽19内部的左侧与右侧卡块20的左侧之间固定连接有弹簧21,第二过滤板18的顶部且位于第一过滤孔11的下方开设有第二过滤孔22,第二过滤板18底部的前侧开设有倾斜块24。As a preferred embodiment, as shown in Figures 4-5, the extrusion mechanism 3 includes an adjusting frame 17, and a second filter plate 18 is slidably connected inside the adjusting frame 17. Sliding grooves 19 are provided on the left and right sides of the second filter plate 18. Blocks 20 are fixedly connected to the left and right sides of the inner surface of the adjusting frame 17 and located inside the sliding grooves 19, and the inside of the sliding grooves 19 is slidably connected to the outside of the block 20. A spring 21 is fixedly connected between the left side of the right sliding groove 19 and the left side of the right block 20. A second filter hole 22 is provided at the top of the second filter plate 18 and below the first filter hole 11, and a tilting block 24 is provided on the front side of the bottom of the second filter plate 18.
进一步的,通过伸长第一伸缩杆9,第一伸缩杆9将第一过滤板10向下推动,当倾斜槽50的倾斜面与倾斜块24的倾斜面接触时,倾斜槽50通过倾斜块24将第二过滤板18沿着卡块20移动,让第二过滤板18将第一过滤孔11堵住,这样可以使第一伸缩杆9推动第二过滤板18向污水仓1的底部移动,将污水仓1内部的杂质挤压,提高污水仓1内部的污水与杂质分离效率。Furthermore, by extending the first telescopic rod 9, the first telescopic rod 9 pushes the first filter plate 10 downward, and when the inclined surface of the inclined groove 50 contacts the inclined surface of the inclined block 24, the inclined groove 50 moves the second filter plate 18 along the blocking block 20 through the inclined block 24, so that the second filter plate 18 blocks the first filter hole 11, so that the first telescopic rod 9 can push the second filter plate 18 to move to the bottom of the sewage tank 1, squeeze the impurities inside the sewage tank 1, and improve the separation efficiency of sewage and impurities inside the sewage tank 1.
作为优选方案,如图7-8,清理机构4包括清理仓25,清理仓25的顶部开设有密封槽23,且密封槽23的内部滑动连接有密封板26,清理仓25的后侧通过固定块固定连接有第二伸缩杆27,第二伸缩杆27的型号为ANT-26,第二伸缩杆27与外界电源电性连接,且通过控制开关控制,第二伸缩杆27的伸缩端与密封板26的右侧通过固定块固定连接,清理仓25内表面左侧的顶部通过转轴转动连接有清理板28,清理仓25内表面左侧的前后两侧且位于清理板28的下方均通过转动块转动连接有第三伸缩杆29,第三伸缩杆29的型号为ANT-26,第三伸缩杆29与外界电源电性连接,且通过控制开关控制,第三伸缩杆29的伸缩端与清理板28的外部通过转动块转动连接,清理板28远离第二过滤板18的一侧通过固定块固定连接有第一电机30,第一电机30的型号为SL57S2,第一电机30与可反复充电的蓄电池图中未示出电性连接,且通过控制开关控制,第一电机30的输出端贯穿并延伸至清理板28接近第二过滤板18的一侧,第一电机30的输出端固定连接有清理盘31,清理盘31的外部安装有清理刷,清理仓25内表面的底部滑动连接有收集仓32。As a preferred embodiment, as shown in Figures 7-8, the cleaning mechanism 4 includes a cleaning chamber 25, a sealing groove 23 is provided on the top of the cleaning chamber 25, and a sealing plate 26 is slidably connected inside the sealing groove 23, a second telescopic rod 27 is fixedly connected to the rear side of the cleaning chamber 25 through a fixed block, the model of the second telescopic rod 27 is ANT-26, the second telescopic rod 27 is electrically connected to an external power supply, and is controlled by a control switch, the telescopic end of the second telescopic rod 27 is fixedly connected to the right side of the sealing plate 26 through a fixed block, the top of the left side of the inner surface of the cleaning chamber 25 is rotatably connected to a cleaning plate 28 through a rotating shaft, the front and rear sides of the left side of the inner surface of the cleaning chamber 25 and located below the cleaning plate 28 are rotatably connected to a third telescopic rod 29 through a rotating block, and the third telescopic rod 29 The model is ANT-26, the third telescopic rod 29 is electrically connected to the external power supply and is controlled by a control switch, the telescopic end of the third telescopic rod 29 is rotatably connected to the outside of the cleaning plate 28 through a rotating block, and the side of the cleaning plate 28 away from the second filter plate 18 is fixedly connected to the first motor 30 through a fixed block. The model of the first motor 30 is SL57S2, and the first motor 30 is electrically connected to a rechargeable battery not shown in the figure, and is controlled by a control switch. The output end of the first motor 30 passes through and extends to the side of the cleaning plate 28 close to the second filter plate 18, and the output end of the first motor 30 is fixedly connected to a cleaning disk 31, and a cleaning brush is installed on the outside of the cleaning disk 31. The bottom of the inner surface of the cleaning bin 25 is slidably connected to a collecting bin 32.
进一步的,通过伸长第二伸缩杆27,第二伸缩杆27带动密封板26移动,使密封板26顶部的杂质落在收集仓32的内部,伸长第三伸缩杆29,第三伸缩杆29带动清理板28转动,将清理板28移动到污水仓1的底部,启动第一电机30,第一电机30带动清理盘31转动,清理盘31外部的清理刷将第二过滤孔22内部的杂质清理,这样可以通过移动密封板26将杂质落在收集仓32的内部,防止杂质积累在污水仓1的内部,为下次污水处理提供干净的环境。Furthermore, by extending the second telescopic rod 27, the second telescopic rod 27 drives the sealing plate 26 to move, so that the impurities on the top of the sealing plate 26 fall into the inside of the collecting bin 32, and the third telescopic rod 29 is extended, and the third telescopic rod 29 drives the cleaning plate 28 to rotate, and the cleaning plate 28 is moved to the bottom of the sewage bin 1, and the first motor 30 is started, and the first motor 30 drives the cleaning disk 31 to rotate, and the cleaning brush outside the cleaning disk 31 cleans the impurities inside the second filter hole 22, so that the impurities can be dropped into the inside of the collecting bin 32 by moving the sealing plate 26, thereby preventing impurities from accumulating inside the sewage bin 1, and providing a clean environment for the next sewage treatment.
作为优选方案,如图6,搅拌机构5包括第二电机33和转动筒34,第二电机33的外部通过固定块与第一伸缩杆9伸缩端的外部固定连接,第二电机33输出端的外部固定连接有第一齿轮35,第二电机33的型号为SL57S2,第二电机33与可反复充电的蓄电池图中未示出电性连接,且通过控制开关控制,转动筒34外表面的顶部固定连接有第二齿轮36,第二齿轮36的外部与第一齿轮35的外部啮合连接,转动筒34的外部固定连接若干搅拌杆37,转动筒34的内部与第一伸缩杆9伸缩端的外部滑动连接,转动筒34的顶部和底部均滑动连接有定位环38,两组定位环38的内部与第一伸缩杆9伸缩端的外部固定连接,搅拌杆37的外部固定连接有放料管39,放料管39的顶部连通有连接管40。As a preferred embodiment, as shown in Figure 6, the stirring mechanism 5 includes a second motor 33 and a rotating cylinder 34, the outside of the second motor 33 is fixedly connected to the outside of the telescopic end of the first telescopic rod 9 through a fixed block, the outside of the output end of the second motor 33 is fixedly connected to the first gear 35, the model of the second motor 33 is SL57S2, the second motor 33 is electrically connected to the repeatedly rechargeable battery not shown in the figure, and is controlled by a control switch, the top of the outer surface of the rotating cylinder 34 is fixedly connected to the second gear 36, the outside of the second gear 36 is meshed with the outside of the first gear 35, the outside of the rotating cylinder 34 is fixedly connected to a plurality of stirring rods 37, the inside of the rotating cylinder 34 is slidably connected to the outside of the telescopic end of the first telescopic rod 9, the top and bottom of the rotating cylinder 34 are slidably connected to positioning rings 38, the insides of the two sets of positioning rings 38 are fixedly connected to the outside of the telescopic end of the first telescopic rod 9, the outside of the stirring rod 37 is fixedly connected to a discharge pipe 39, and the top of the discharge pipe 39 is connected to a connecting pipe 40.
进一步的,通过启动第二电机33,第二电机33带动第一齿轮35转动,第一齿轮35通过啮合连接传动第二齿轮36转动,第二齿轮36通过转动筒34带动搅拌杆37转动,将污水仓1的内部净化液与污水充分融合。Furthermore, by starting the second motor 33, the second motor 33 drives the first gear 35 to rotate, the first gear 35 drives the second gear 36 to rotate through the meshing connection, and the second gear 36 drives the stirring rod 37 to rotate through the rotating cylinder 34, so that the internal purified liquid of the sewage tank 1 is fully integrated with the sewage.
作为优选方案,如图9-10,抽水机构6包括抽水架41,抽水架41的底部与污水仓1的顶部固定连接,抽水架41的顶部固定连接有水泵42,水泵42的型号为GMSW252-K,水泵42与可反复充电的蓄电池图中未示出电性连接,且通过控制开关控制,水泵42的进水端通过管道连通有抽水仓43,抽水仓43的底部开设有吸水孔44,抽水仓43的外部固定连接有过滤网45,水泵42的出水端通过有出水管46,且出水管46的外部安装有阀门。As a preferred embodiment, as shown in Figures 9-10, the pumping mechanism 6 includes a pumping frame 41, the bottom of the pumping frame 41 is fixedly connected to the top of the sewage tank 1, and a water pump 42 is fixedly connected to the top of the pumping frame 41. The model of the water pump 42 is GMSW252-K. The water pump 42 is electrically connected to a rechargeable battery (not shown in the figure), and is controlled by a control switch. The water inlet end of the water pump 42 is connected to a pumping tank 43 through a pipeline, and a water suction hole 44 is provided at the bottom of the pumping tank 43. A filter screen 45 is fixedly connected to the outside of the pumping tank 43, and a water outlet end of the water pump 42 is connected through a water outlet pipe 46, and a valve is installed on the outside of the water outlet pipe 46.
进一步的,通过控制开关启动水泵42,水泵42通过抽水仓43和吸水孔44将污水仓1内部净止后液体抽走。Furthermore, the water pump 42 is started by controlling the switch, and the water pump 42 pumps out the clean liquid inside the sewage tank 1 through the water pumping tank 43 and the water suction hole 44.
进一步的,第一过滤板10的底部与调节框17的顶部固定连接,第一过滤板10的外部和调节框17的前后两侧均与污水仓1的内部滑动连接。Furthermore, the bottom of the first filter plate 10 is fixedly connected to the top of the adjustment frame 17 , and the outside of the first filter plate 10 and the front and rear sides of the adjustment frame 17 are slidably connected to the inside of the sewage tank 1 .
进一步的,密封板26的顶部开设有倾斜槽50,所述倾斜槽50的倾斜面与倾斜块24的倾斜面滑动连接。Furthermore, an inclined groove 50 is formed on the top of the sealing plate 26 , and an inclined surface of the inclined groove 50 is slidably connected to an inclined surface of the inclined block 24 .
进一步的,支撑板7的顶部且位于第一伸缩杆9的前侧固定连接有储料仓47,储料仓47的顶部固定连接有气泵48,气泵48的型号为VAP2300NF1,气泵48与可反复充电的蓄电池图中未示出电性连接,且通过控制开关控制,气泵48的进气端连通有吸料管49,吸料管49的一端与储料仓47的内部连通,气泵48的出气端与连接管40的一端连通。Furthermore, a material storage bin 47 is fixedly connected to the top of the support plate 7 and located in front of the first telescopic rod 9, and an air pump 48 is fixedly connected to the top of the material storage bin 47. The model of the air pump 48 is VAP2300NF1. The air pump 48 is electrically connected to a rechargeable battery (not shown in the figure) and is controlled by a control switch. The air inlet end of the air pump 48 is connected to a suction pipe 49, one end of the suction pipe 49 is connected to the interior of the material storage bin 47, and the air outlet end of the air pump 48 is connected to one end of the connecting pipe 40.
进一步的,储料仓47的顶部开设有倒料孔,可以通过倒料孔将净化液倒入储料仓47的内部。Furthermore, a pouring hole is provided at the top of the storage bin 47 , and the purified liquid can be poured into the interior of the storage bin 47 through the pouring hole.
进一步的,通过控制开关启动气泵48,气泵48将储料仓47内部的净化液通过连接管40和放料管39流入污水仓1的内部。Furthermore, the air pump 48 is started by controlling the switch, and the air pump 48 flows the purified liquid inside the storage bin 47 into the sewage bin 1 through the connecting pipe 40 and the discharge pipe 39 .
一种智能型污水处理系统的使用方法,具体包括以下步骤:A method for using an intelligent sewage treatment system comprises the following steps:
步骤一、污水过滤:通过控制开关伸长第一伸缩杆9,第一伸缩杆9将第一过滤板10向下移动,让直线齿条13与弧形齿条14啮合连接,使遮挡板8与第一过滤板10垂直放置,将收集袋套在负重架16的内部,在将污水倒入污水仓1的内部,污水通过第一过滤孔11和第二过滤孔22流入污水仓1的内部,污水中的大块杂质会残留在第一过滤板10的顶部,通过控制开关收缩第一伸缩杆9,第一伸缩杆9将第一过滤板10向上提起,当直线齿条13与弧形齿条14分离时,遮挡板8在负重架16的重力下转动,让遮挡板8的外部与转动槽的内部接触,负重架16沿着转动架15转动,同时第一过滤板10顶部的大块杂质通过第一过滤板10两侧的斜面流入负重架16外部的收集袋中;Step 1, sewage filtration: extend the first telescopic rod 9 by controlling the switch, the first telescopic rod 9 moves the first filter plate 10 downward, the linear rack 13 is meshed with the arc rack 14, the baffle plate 8 is placed vertically with the first filter plate 10, the collecting bag is put inside the load-bearing frame 16, and the sewage is poured into the sewage tank 1. The sewage flows into the sewage tank 1 through the first filter hole 11 and the second filter hole 22. Large impurities in the sewage will remain on the top of the first filter plate 10. The first telescopic rod 9 is retracted by controlling the switch, and the first telescopic rod 9 lifts the first filter plate 10 upward. When the linear rack 13 is separated from the arc rack 14, the baffle plate 8 rotates under the gravity of the load-bearing frame 16, so that the outside of the baffle plate 8 contacts the inside of the rotating groove, and the load-bearing frame 16 rotates along the rotating frame 15. At the same time, the large impurities on the top of the first filter plate 10 flow into the collection bag outside the load-bearing frame 16 through the inclined surfaces on both sides of the first filter plate 10.
步骤二、污水净置:通过控制开关伸长第一伸缩杆9,第一伸缩杆9将第一过滤板10向下推动,使直线齿条13与弧形齿条14啮合连接,将遮挡板8转动,当直线齿条13与弧形齿条14分离,遮挡板8在负重架16的重力下转动,将遮挡板8顶部残留的大块杂质震动,并落在收集袋中,当第一伸缩杆9带动搅拌杆37移动到污水下方时,停止伸长第一伸缩杆9,通过控制开关启动气泵48,气泵48将储料仓47内部的净化液通过连接管40和放料管39流入污水仓1的内部,同时通过控制开关启动第二电机33,第二电机33带动第一齿轮35转动,第一齿轮35通过啮合连接传动第二齿轮36转动,第二齿轮36通过转动筒34带动搅拌杆37转动,将污水仓1的内部净化液与污水充分融合;Step 2, sewage purification: extend the first telescopic rod 9 by controlling the switch, the first telescopic rod 9 pushes the first filter plate 10 downward, so that the linear rack 13 is meshed and connected with the arc rack 14, and the baffle plate 8 is rotated. When the linear rack 13 is separated from the arc rack 14, the baffle plate 8 rotates under the gravity of the load-bearing frame 16, and the large impurities remaining on the top of the baffle plate 8 are vibrated and fall into the collection bag. When the first telescopic rod 9 drives the stirring rod 37 to move below the sewage, the first telescopic rod 9 is stopped from being extended, and the air pump 48 is started by controlling the switch. The air pump 48 flows the purified liquid inside the storage bin 47 into the sewage bin 1 through the connecting pipe 40 and the discharge pipe 39. At the same time, the second motor 33 is started by controlling the switch, and the second motor 33 drives the first gear 35 to rotate. The first gear 35 drives the second gear 36 to rotate through the meshing connection. The second gear 36 drives the stirring rod 37 to rotate through the rotating cylinder 34, so that the purified liquid inside the sewage bin 1 is fully integrated with the sewage.
步骤三、污水挤压:当净化液与污水充分融合一段时间后,污水中的杂质大部分通过第一过滤孔11落在密封板26的顶部,通过控制开关启动水泵42,水泵42通过抽水仓43和吸水孔44将污水仓1内部净止后液体抽走,同时通过控制开关伸长第一伸缩杆9,第一伸缩杆9将第一过滤板10向下推动,当倾斜槽50的倾斜面与倾斜块24的倾斜面接触时,倾斜槽50通过倾斜块24将第二过滤板18沿着卡块20移动,让第二过滤板18将第一过滤孔11堵住,使第二过滤板18将污水仓1内部的杂质挤压;Step 3, sewage squeezing: after the purified liquid and the sewage are fully integrated for a period of time, most of the impurities in the sewage fall on the top of the sealing plate 26 through the first filter hole 11, and the water pump 42 is started by the control switch, and the water pump 42 extracts the liquid after the clean stop inside the sewage tank 1 through the pumping tank 43 and the suction hole 44. At the same time, the first telescopic rod 9 is extended by the control switch, and the first telescopic rod 9 pushes the first filter plate 10 downward. When the inclined surface of the inclined groove 50 contacts the inclined surface of the inclined block 24, the inclined groove 50 moves the second filter plate 18 along the block 20 through the inclined block 24, so that the second filter plate 18 blocks the first filter hole 11, so that the second filter plate 18 squeezes the impurities inside the sewage tank 1;
步骤四、杂质处理:杂质挤压完成后,通过控制开关伸长第二伸缩杆27,第二伸缩杆27带动密封板26移动,使密封板26顶部的杂质落在收集仓32的内部,通过控制开关伸长第三伸缩杆29,第三伸缩杆29带动清理板28转动,将清理板28移动到污水仓1的底部,通过控制开关启动第一电机30,第一电机30带动清理盘31转动,清理盘31外部的清理刷将第二过滤孔22内部的杂质清理,当收集仓32内部的杂质收集完成后,将收集仓32从清理仓25内部的拉出。Step 4, impurity treatment: After the impurities are squeezed out, the second telescopic rod 27 is extended by the control switch, and the second telescopic rod 27 drives the sealing plate 26 to move, so that the impurities on the top of the sealing plate 26 fall into the inside of the collecting bin 32, and the third telescopic rod 29 is extended by the control switch, and the third telescopic rod 29 drives the cleaning plate 28 to rotate, and the cleaning plate 28 is moved to the bottom of the sewage bin 1, and the first motor 30 is started by the control switch, and the first motor 30 drives the cleaning disk 31 to rotate, and the cleaning brush outside the cleaning disk 31 cleans the impurities inside the second filter hole 22. When the impurities inside the collecting bin 32 are collected, the collecting bin 32 is pulled out from the inside of the cleaning bin 25.
尽管已经示出和描述了本发明的实施例,对于本领域的普通技术人员而言,可以理解在不脱离本发明的原理和精神的情况下可以对这些实施例进行多种变化、修改、替换和变型,本发明的范围由所附权利要求及其等同物限定。Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and variations may be made to the embodiments without departing from the principles and spirit of the present invention, and that the scope of the present invention is defined by the appended claims and their equivalents.

Claims (10)

  1. 一种智能型污水处理系统,包括污水仓(1),其特征在于:所述污水仓(1)的前侧通过固定块固定连接有过滤机构(2),所述过滤机构(2)的底部固定连接有挤压机构(3),所述污水仓(1)的底部固定连接有清理机构(4),所述污水仓(1)的内部且位于过滤机构(2)的外部固定连接有搅拌机构(5),所述污水仓(1)的内部且位于过滤机构(2)的后侧固定连接有抽水机构(6);An intelligent sewage treatment system comprises a sewage tank (1), characterized in that: a filtering mechanism (2) is fixedly connected to the front side of the sewage tank (1) via a fixing block, a squeezing mechanism (3) is fixedly connected to the bottom of the filtering mechanism (2), a cleaning mechanism (4) is fixedly connected to the bottom of the sewage tank (1), a stirring mechanism (5) is fixedly connected inside the sewage tank (1) and located outside the filtering mechanism (2), and a pumping mechanism (6) is fixedly connected inside the sewage tank (1) and located at the rear side of the filtering mechanism (2);
    所述过滤机构(2)包括支撑板(7)和两组遮挡板(8),所述支撑板(7)的顶部固定连接有第一伸缩杆(9),所述第一伸缩杆(9)的伸缩端贯穿并延伸至支撑板(7)的内部,所述第一伸缩杆(9)的伸缩端固定连接有第一过滤板(10),所述第一过滤板(10)左右两侧的斜面均开设有若干第一过滤孔(11),所述第一过滤板(10)左右两侧的前后两侧均开设有引导槽(12),所述引导槽(12)的内部固定连接有直线齿条(13),两组所述遮挡板(8)的底部且位于引导槽(12)的一侧固定连接有弧形齿条(14),两组所述遮挡板(8)的外部且远离第一伸缩杆(9)的一侧均固定连接有转动架(15),所述转动架(15)的内部通过转轴转动连接有负重架(16)。The filtering mechanism (2) comprises a support plate (7) and two groups of shielding plates (8); a first telescopic rod (9) is fixedly connected to the top of the support plate (7); a telescopic end of the first telescopic rod (9) penetrates and extends into the interior of the support plate (7); a first filter plate (10) is fixedly connected to the telescopic end of the first telescopic rod (9); a plurality of first filter holes (11) are provided on the inclined surfaces on the left and right sides of the first filter plate (10); guide grooves (12) are provided on the front and rear sides of the left and right sides of the first filter plate (10); a linear rack (13) is fixedly connected to the interior of the guide groove (12); an arc-shaped rack (14) is fixedly connected to the bottom of the two groups of shielding plates (8) and on one side of the guide groove (12); a rotating frame (15) is fixedly connected to the exterior of the two groups of shielding plates (8) and on a side away from the first telescopic rod (9); a load-bearing frame (16) is rotatably connected to the interior of the rotating frame (15) via a rotating shaft.
  2. 根据权利要求1所述的一种智能型污水处理系统,其特征在于:所述挤压机构(3)包括调节框(17),所述调节框(17)的内部滑动连接有第二过滤板(18),所述第二过滤板(18)的左右两侧均开设有滑动槽(19),所述调节框(17)内表面的左右两侧且位于滑动槽(19)的内部均固定连接有卡块(20),且滑动槽(19)的内部与卡块(20)的外部滑动连接,右侧所述滑动槽(19)内部的左侧与右侧卡块(20)的左侧之间固定连接有弹簧(21),所述第二过滤板(18)的顶部且位于第一过滤孔(11)的下方开设有第二过滤孔(22),所述第二过滤板(18)底部的前侧固定连接有倾斜块(24)。An intelligent sewage treatment system according to claim 1, characterized in that: the extrusion mechanism (3) comprises an adjustment frame (17), a second filter plate (18) is slidably connected inside the adjustment frame (17), a sliding groove (19) is provided on both left and right sides of the second filter plate (18), a clamping block (20) is fixedly connected on both left and right sides of the inner surface of the adjustment frame (17) and located inside the sliding groove (19), and the inside of the sliding groove (19) is slidably connected to the outside of the clamping block (20), a spring (21) is fixedly connected between the left side of the inside of the sliding groove (19) on the right side and the left side of the clamping block (20) on the right side, a second filter hole (22) is provided on the top of the second filter plate (18) and located below the first filter hole (11), and a tilting block (24) is fixedly connected to the front side of the bottom of the second filter plate (18).
  3. 根据权利要求2所述的一种智能型污水处理系统,其特征在于:所述清理机构(4)包括清理仓(25),所述清理仓(25)的顶部开设有密封槽(23),且密封槽(23)的内部滑动连接有密封板(26),所述清理仓(25)的后侧通过固定块固定连接有第二伸缩杆(27),所述第二伸缩杆(27)的伸缩端与密封板(26)的右侧通过固定块固定连接,所述清理仓(25)内表面左侧的顶部通过转轴转动连接有清理板(28),所述清理仓(25)内表面左侧的前后两侧且位于清理板(28)的下方均通过转动块转动连接有第三伸缩杆(29),所述第三伸缩杆(29)的伸缩端与清理板(28)的外部通过转动块转动连接,所述清理板(28)远离第二过滤板(18)的一侧通过固定块固定连接有第一电机(30),所述第一电机(30)的输出端贯穿并延伸至清理板(28)接近第二过滤板(18)的一侧,所述第一电机(30)的输出端固定连接有清理盘(31),所述清理盘(31)的外部安装有清理刷,所述清理仓(25)内表面的底部滑动连接有收集仓(32)。An intelligent sewage treatment system according to claim 2, characterized in that: the cleaning mechanism (4) comprises a cleaning chamber (25), a sealing groove (23) is provided on the top of the cleaning chamber (25), and a sealing plate (26) is slidably connected inside the sealing groove (23), a second telescopic rod (27) is fixedly connected to the rear side of the cleaning chamber (25) through a fixing block, a telescopic end of the second telescopic rod (27) is fixedly connected to the right side of the sealing plate (26) through a fixing block, a cleaning plate (28) is rotatably connected to the top of the left side of the inner surface of the cleaning chamber (25) through a rotating shaft, and the front and rear sides of the left side of the inner surface of the cleaning chamber (25) and located on the cleaning plate A third telescopic rod (29) is rotatably connected to the bottom of the cleaning plate (28) through a rotating block, the telescopic end of the third telescopic rod (29) is rotatably connected to the outside of the cleaning plate (28) through the rotating block, the side of the cleaning plate (28) away from the second filter plate (18) is fixedly connected to a first motor (30) through a fixed block, the output end of the first motor (30) passes through and extends to the side of the cleaning plate (28) close to the second filter plate (18), the output end of the first motor (30) is fixedly connected to a cleaning disk (31), the outside of the cleaning disk (31) is equipped with a cleaning brush, and the bottom of the inner surface of the cleaning bin (25) is slidably connected to a collecting bin (32).
  4. 根据权利要求1所述的一种智能型污水处理系统,其特征在于:所述搅拌机构(5)包括第二电机(33)和转动筒(34),所述第二电机(33)的外部通过固定块与第一伸缩杆(9)伸缩端的外部固定连接,所述第二电机(33)输出端的外部固定连接有第一齿轮(35),所述转动筒(34)外表面的顶部固定连接有第二齿轮(36),所述第二齿轮(36)的外部与第一齿轮(35)的外部啮合连接,所述转动筒(34)的外部固定连接若干搅拌杆(37),所述转动筒(34)的内部与第一伸缩杆(9)伸缩端的外部滑动连接,所述转动筒(34)的顶部和底部均滑动连接有定位环(38),两组所述定位环(38)的内部与第一伸缩杆(9)伸缩端的外部固定连接,所述搅拌杆(37)的外部固定连接有放料管(39),所述放料管(39)的顶部连通有连接管(40)。An intelligent sewage treatment system according to claim 1, characterized in that: the stirring mechanism (5) comprises a second motor (33) and a rotating drum (34), the exterior of the second motor (33) is fixedly connected to the exterior of the telescopic end of the first telescopic rod (9) through a fixing block, the exterior of the output end of the second motor (33) is fixedly connected to a first gear (35), the top of the outer surface of the rotating drum (34) is fixedly connected to a second gear (36), the exterior of the second gear (36) is meshingly connected to the exterior of the first gear (35), the exterior of the rotating drum (34) is fixedly connected to a plurality of stirring rods (37), the interior of the rotating drum (34) is slidably connected to the exterior of the telescopic end of the first telescopic rod (9), the top and bottom of the rotating drum (34) are both slidably connected to positioning rings (38), the interiors of the two sets of positioning rings (38) are fixedly connected to the exterior of the telescopic end of the first telescopic rod (9), the exterior of the stirring rod (37) is fixedly connected to a discharge pipe (39), and the top of the discharge pipe (39) is connected to a connecting pipe (40).
  5. 根据权利要求1所述的一种智能型污水处理系统,其特征在于:所述抽水机构(6)包括抽水架(41),所述抽水架(41)的底部与污水仓(1)的顶部固定连接,所述抽水架(41)的顶部固定连接有水泵(42),所述水泵(42)的进水端通过管道连通有抽水仓(43),所述抽水仓(43)的底部开设有吸水孔(44),所述抽水仓(43)的外部固定连接有过滤网(45),所述水泵(42)的出水端连通有出水管(46),且出水管(46)的外部安装有阀门。An intelligent sewage treatment system according to claim 1, characterized in that: the pumping mechanism (6) comprises a pumping frame (41), the bottom of the pumping frame (41) is fixedly connected to the top of the sewage tank (1), the top of the pumping frame (41) is fixedly connected to a water pump (42), the water inlet end of the water pump (42) is connected to a pumping tank (43) through a pipeline, a water suction hole (44) is provided at the bottom of the pumping tank (43), a filter screen (45) is fixedly connected to the outside of the pumping tank (43), the water outlet end of the water pump (42) is connected to a water outlet pipe (46), and a valve is installed on the outside of the water outlet pipe (46).
  6. 根据权利要求2所述的一种智能型污水处理系统,其特征在于:所述第一过滤板(10)的底部与调节框(17)的顶部固定连接,所述第一过滤板(10)的外部和调节框(17)的前后两侧均与污水仓(1)的内部滑动连接。An intelligent sewage treatment system according to claim 2, characterized in that: the bottom of the first filter plate (10) is fixedly connected to the top of the adjustment frame (17), and the outside of the first filter plate (10) and the front and rear sides of the adjustment frame (17) are slidably connected to the inside of the sewage tank (1).
  7. 根据权利要求1所述的一种智能型污水处理系统,其特征在于:所述支撑板(7)的外部与污水仓(1)的外部固定连接,所述污水仓(1)顶部的左右两侧均开设有转动槽,且转动槽的内部与遮挡板(8)的底部通过转轴转动连接,所述污水仓(1)的外部与转动架(15)的外部之间固定连接有弹簧,所述弧形齿条(14)的外部与直线齿条(13)的外部啮合连接。An intelligent sewage treatment system according to claim 1, characterized in that: the outside of the support plate (7) is fixedly connected to the outside of the sewage tank (1), a rotation groove is provided on both the left and right sides of the top of the sewage tank (1), and the inside of the rotation groove is rotationally connected to the bottom of the baffle plate (8) through a rotating shaft, a spring is fixedly connected between the outside of the sewage tank (1) and the outside of the rotating frame (15), and the outside of the arc-shaped rack (14) is meshedly connected to the outside of the linear rack (13).
  8. 根据权利要求3所述的一种智能型污水处理系统,其特征在于:所述密封板(26)的顶部开设有倾斜槽(50),所述倾斜槽(50)的倾斜面与倾斜块(24)的倾斜面滑动连接。An intelligent sewage treatment system according to claim 3, characterized in that: an inclined groove (50) is provided on the top of the sealing plate (26), and the inclined surface of the inclined groove (50) is slidably connected to the inclined surface of the inclined block (24).
  9. 根据权利要求4所述的一种智能型污水处理系统,其特征在于:所述支撑板(7)的顶部且位于第一伸缩杆(9)的前侧固定连接有储料仓(47),所述储料仓(47)的顶部固定连接有气泵(48),所述气泵(48)的进气端连通有吸料管(49),所述吸料管(49)的一端与储料仓(47)的内部连通,所述气泵(48)的出气端与连接管(40)的一端连通。An intelligent sewage treatment system according to claim 4, characterized in that: a storage bin (47) is fixedly connected to the top of the support plate (7) and located in front of the first telescopic rod (9), an air pump (48) is fixedly connected to the top of the storage bin (47), an air inlet end of the air pump (48) is connected to a suction pipe (49), one end of the suction pipe (49) is connected to the inside of the storage bin (47), and an air outlet end of the air pump (48) is connected to one end of the connecting pipe (40).
  10. 一种智能型污水处理系统的使用方法,其特征在于:具体包括以下步骤:A method for using an intelligent sewage treatment system, characterized in that it specifically comprises the following steps:
    步骤一、污水过滤:通过控制开关伸长第一伸缩杆(9),第一伸缩杆(9)将第一过滤板(10)向下移动,让直线齿条(13)与弧形齿条(14)啮合连接,使遮挡板(8)与第一过滤板(10)垂直放置,将收集袋套在负重架(16)的内部,在将污水倒入污水仓(1)的内部,污水通过第一过滤孔(11)和第二过滤孔(22)流入污水仓(1)的内部,污水中的大块杂质会残留在第一过滤板(10)的顶部,通过控制开关收缩第一伸缩杆(9),第一伸缩杆(9)将第一过滤板(10)向上提起,当直线齿条(13)与弧形齿条(14)分离时,遮挡板(8)在负重架(16)的重力下转动,让遮挡板(8)的外部与转动槽的内部接触,负重架(16)沿着转动架(15)转动,同时第一过滤板(10)顶部的大块杂质通过第一过滤板(10)两侧的斜面流入负重架(16)外部的收集袋中;Step 1, sewage filtration: The first telescopic rod (9) is extended by controlling the switch, and the first telescopic rod (9) moves the first filter plate (10) downward, so that the linear rack (13) is meshed and connected with the arc rack (14), so that the shielding plate (8) and the first filter plate (10) are placed vertically, and the collecting bag is placed inside the load-bearing frame (16). When the sewage is poured into the sewage tank (1), the sewage flows into the sewage tank (1) through the first filter hole (11) and the second filter hole (22), and the large impurities in the sewage will remain on the first filter plate ( 10), the first telescopic rod (9) is retracted by controlling the switch, and the first telescopic rod (9) lifts the first filter plate (10) upward, and when the linear rack (13) and the arc rack (14) are separated, the shielding plate (8) rotates under the gravity of the load-bearing frame (16), so that the outside of the shielding plate (8) contacts the inside of the rotating groove, and the load-bearing frame (16) rotates along the rotating frame (15), and at the same time, large impurities on the top of the first filter plate (10) flow into the collection bag outside the load-bearing frame (16) through the inclined surfaces on both sides of the first filter plate (10);
    步骤二、污水净置:通过控制开关伸长第一伸缩杆(9),第一伸缩杆(9)将第一过滤板(10)向下推动,使直线齿条(13)与弧形齿条(14)啮合连接,将遮挡板(8)转动,当直线齿条(13)与弧形齿条(14)分离,遮挡板(8)在负重架(16)的重力下转动,将遮挡板(8)顶部残留的大块杂质震动,并落在收集袋中,当第一伸缩杆(9)带动搅拌杆(37)移动到污水下方时,停止伸长第一伸缩杆(9),通过控制开关启动气泵(48),气泵(48)将储料仓(47)内部的净化液通过连接管(40)和放料管(39)流入污水仓(1)的内部,同时通过控制开关启动第二电机(33),第二电机(33)带动第一齿轮(35)转动,第一齿轮(35)通过啮合连接传动第二齿轮(36)转动,第二齿轮(36)通过转动筒(34)带动搅拌杆(37)转动,将污水仓(1)的内部净化液与污水充分融合;Step 2, sewage purification: the first telescopic rod (9) is extended by the control switch, and the first telescopic rod (9) pushes the first filter plate (10) downward, so that the linear rack (13) and the arc-shaped rack (14) are meshed and connected, and the shielding plate (8) is rotated. When the linear rack (13) and the arc-shaped rack (14) are separated, the shielding plate (8) rotates under the gravity of the load-bearing frame (16), and the large impurities remaining on the top of the shielding plate (8) are vibrated and fall into the collection bag. When the first telescopic rod (9) drives the stirring rod (37) to move below the sewage, the extension of the first telescopic rod (9) is stopped. The rod (9) starts the air pump (48) through the control switch, and the air pump (48) flows the purified liquid in the storage bin (47) into the sewage bin (1) through the connecting pipe (40) and the discharge pipe (39). At the same time, the second motor (33) is started through the control switch, and the second motor (33) drives the first gear (35) to rotate. The first gear (35) drives the second gear (36) to rotate through the meshing connection. The second gear (36) drives the stirring rod (37) to rotate through the rotating cylinder (34), so that the purified liquid in the sewage bin (1) and the sewage are fully mixed;
    步骤三、污水挤压:当净化液与污水充分融合一段时间后,污水中的杂质大部分通过第一过滤孔(11)落在密封板(26)的顶部,通过控制开关启动水泵(42),水泵(42)通过抽水仓(43)和吸水孔(44)将污水仓(1)内部净止后液体抽走,同时通过控制开关伸长第一伸缩杆(9),第一伸缩杆(9)将第一过滤板(10)向下推动,当倾斜槽(50)的倾斜面与倾斜块(24)的倾斜面接触时,倾斜槽(50)通过倾斜块(24)将第二过滤板(18)沿着卡块(20)移动,让第二过滤板(18)将第一过滤孔(11)堵住,使第二过滤板(18)将污水仓(1)内部的杂质挤压;Step 3, sewage squeezing: after the purified liquid and the sewage are fully mixed for a period of time, most of the impurities in the sewage fall onto the top of the sealing plate (26) through the first filter hole (11), and the water pump (42) is started by the control switch. The water pump (42) extracts the liquid after cleaning inside the sewage tank (1) through the pumping bin (43) and the suction hole (44). At the same time, the first telescopic rod (9) is extended by the control switch, and the first telescopic rod (9) pushes the first filter plate (10) downward. When the inclined surface of the inclined groove (50) contacts the inclined surface of the inclined block (24), the inclined groove (50) moves the second filter plate (18) along the clamping block (20) through the inclined block (24), so that the second filter plate (18) blocks the first filter hole (11), so that the second filter plate (18) squeezes the impurities inside the sewage tank (1);
    步骤四、杂质处理:杂质挤压完成后,通过控制开关伸长第二伸缩杆(27),第二伸缩杆(27)带动密封板(26)移动,使密封板(26)顶部的杂质落在收集仓(32)的内部,通过控制开关伸长第三伸缩杆(29),第三伸缩杆(29)带动清理板(28)转动,将清理板(28)移动到污水仓(1)的底部,通过控制开关启动第一电机(30),第一电机(30)带动清理盘(31)转动,清理盘(31)外部的清理刷将第二过滤孔(22)内部的杂质清理,当收集仓(32)内部的杂质收集完成后,将收集仓(32)从清理仓(25)内部的拉出。Step 4, impurity treatment: After the impurities are squeezed out, the second telescopic rod (27) is extended by the control switch, and the second telescopic rod (27) drives the sealing plate (26) to move, so that the impurities on the top of the sealing plate (26) fall into the inside of the collecting bin (32). The third telescopic rod (29) is extended by the control switch, and the third telescopic rod (29) drives the cleaning plate (28) to rotate, and the cleaning plate (28) is moved to the bottom of the sewage bin (1). The first motor (30) is started by the control switch, and the first motor (30) drives the cleaning plate (31) to rotate. The cleaning brush outside the cleaning plate (31) cleans the impurities inside the second filter hole (22). When the impurities inside the collecting bin (32) are collected, the collecting bin (32) is pulled out from the inside of the cleaning bin (25).
PCT/CN2023/103735 2022-09-26 2023-06-29 Smart wastewater treatment system and method for using same WO2024066571A1 (en)

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CN118059564A (en) * 2024-04-18 2024-05-24 江苏美科太阳能科技股份有限公司 Silicon rod cutting fluid filtering and recycling device
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CN118065457A (en) * 2024-04-24 2024-05-24 辉县市中州水利工程技术有限公司 River mud processing apparatus for hydraulic engineering
CN118087437A (en) * 2024-04-28 2024-05-28 星原建设集团有限公司 Road surface ponding mud cleaning device
CN118079503A (en) * 2024-04-29 2024-05-28 内蒙古君正化工有限责任公司 Mud-containing sewage treatment device for cleaning coking furnace
CN118142244A (en) * 2024-05-09 2024-06-07 沛县万豪纺织科技有限公司 Textile production raw material filtering device
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CN118236756A (en) * 2024-05-27 2024-06-25 河北物恒能源科技有限公司 Water quality purifying device for ground source heat pump system
CN118236740A (en) * 2024-05-28 2024-06-25 靖江市中环化机设备有限公司 High-efficient automatically cleaning sewage treatment pond
CN118255406A (en) * 2024-05-29 2024-06-28 临沂市德润化工股份有限公司 Fatty acid wastewater treatment device and process
CN118320497A (en) * 2024-06-13 2024-07-12 广东赛威赢环境技术工程有限公司 Sewage treatment device for sewage treatment

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