CN112939378A

CN112939378A - Automatic control equipment for sewage treatment

Info

Publication number: CN112939378A
Application number: CN202110414345.1A
Authority: CN
Inventors: 钟承承
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-04-16
Filing date: 2021-04-16
Publication date: 2021-06-11

Abstract

The invention discloses an automatic control device for sewage treatment, which comprises a device main body, wherein an anaerobic chamber, an aerobic chamber, an MBR membrane tank, a reclaimed water tank and a device chamber are sequentially arranged in the device main body, an adjusting tank is arranged at the bottom of the device main body, a scraping plate which can move back and forth and is used for scraping the bottom of the adjusting tank is arranged at the bottom of the adjusting tank, a communicated recovery tank is arranged at the bottom of the adjusting tank at one side of a lifting pump, an auger conveying rod which can rotate and is used for conveying impurities is arranged in the recovery tank, a communicated collecting tank is arranged at the outer side of the recovery tank at one side of the conveying end of the auger conveying rod, an auger conveying pipe which inclines upwards and is used for conveying the impurities is arranged in the collecting tank, a recovery box for recovering the impurities is arranged at the output end of the auger conveying pipe, the adjusting tank is arranged at the bottom of the, thereby forming integrated treatment and simultaneously realizing automatic unified recovery of the precipitate.

Description

Automatic control equipment for sewage treatment

Technical Field

The invention belongs to the technical field of sewage treatment, and particularly relates to automatic control equipment for sewage treatment.

Background

Along with the expansion of the development scale of the human industry, the discharge amount of various wastes is increased year by year, and both industrial wastewater and urban sewage have bad influence on the environmental protection, so that the environmental protection working pressure is higher and higher. The sewage contains complex components, besides a large amount of water and organic matter components, microorganisms, parasitic ova, possibly heavy metal harmful substances and the like, and the health of people can be seriously harmed due to improper treatment.

The sewage treatment equipment is an industrial equipment capable of effectively treating domestic sewage, industrial wastewater and the like in urban areas, prevents sewage and pollutants from directly flowing into water areas, and has important significance for improving ecological environment, promoting urban grade and promoting economic development. Common treatment methods are divided into physical methods and chemical methods, and the common physical methods comprise filtration, sedimentation, centrifugal separation, floating and the like; the common chemical sewage treatment methods are as follows: coagulation, neutralization, oxidation-reduction and the like based on chemical reaction generated by adding medicaments; extraction, steam stripping, air stripping, adsorption, ion exchange, electroosmosis absorption, reverse osmosis and the like based on mass transfer.

However, the sewage treatment in any method has the problem of low automation degree, a plurality of intermediate processes need manual participation, a large amount of labor cost is needed, and the labor intensity is high generally.

Disclosure of Invention

In view of the problems in the prior art, it is an object of the present invention to provide an automated control apparatus for sewage treatment.

In order to achieve the purpose, the invention adopts the following technical scheme:

an automatic control device for sewage treatment comprises a device main body, wherein an anaerobic bin, an aerobic bin, an MBR membrane pool, a reclaimed water pool and a device bin are sequentially arranged in the device main body, a water outlet pipe for discharging water is arranged on one side of the reclaimed water pool, overhaul ports are arranged on the anaerobic bin, the aerobic bin and the MBR membrane pool, a regulating pool is arranged at the bottom of the device main body, a water inlet pipe is arranged at one end of the regulating pool, a lifting pump is arranged at the other end of the regulating pool, a lifting pipe is arranged at the output end of the lifting pump, the output end of the lifting pipe is communicated with a water inlet hole of the anaerobic bin, a scraping plate which can move back and forth and is used for scraping the bottom of the regulating pool is arranged at the bottom of the regulating pool, a recycling tank which is communicated is arranged at one side of the lifting pump, an auger conveying rod which can rotate and is used for conveying impurities is arranged in the recycling tank, a collecting tank which is arranged at one, the collecting tank is internally provided with an auger conveying pipe which inclines upwards and is used for conveying impurities, and the output end of the auger conveying pipe is provided with a recovery box for recovering the impurities.

Preferably, one side of the recovery tank is provided with a conveying motor, and the output end of the conveying motor is connected with the auger conveying rod.

Preferably, be equipped with the filler in the anaerobism storehouse, be equipped with the aeration pipe in the good oxygen storehouse, be equipped with the treatment membrane in the MBR membrane cisterna, be equipped with aeration fan in the equipment storehouse, aeration fan and aeration pipe intercommunication, equalizing basin, anaerobism storehouse, good oxygen storehouse and MBR membrane cisterna one side all are equipped with the exhaust hole, equipment main part one side is equipped with treatment tower and the air intake fan that is used for exhaust-gas treatment to discharge, air intake fan inlet end passes through the pipeline respectively with corresponding exhaust hole intercommunication, and air intake fan exhaust end is equipped with communicating pipe, communicating pipe output and treatment tower inlet end intercommunication.

Preferably, the middle part of the treatment tower is provided with a spray pipe for spraying, the treatment tower is arranged above the spray pipe and is internally provided with a fixedly connected filter screen plate, the filter screen plate is uniformly provided with a plurality of compressible adsorption balls, the upper part of the filter screen plate is provided with an extrusion screen plate which can move up and down and is used for extruding the adsorption balls, the treatment tower is arranged on the extrusion screen plate and is internally provided with a fixedly connected baffling frame, the baffling frame is internally provided with a plurality of uniform and fixedly connected baffle plates, the same side of each baffle plate is provided with a fixedly connected adsorption cotton layer, and the other side of each baffle plate is provided with a baffling pressing plate which can move back and forth and is used for extruding the adsorption cotton.

Preferably, the middle part of the baffle frame is provided with an extrusion rod which can move back and forth, the extrusion rods movably penetrate through the corresponding baffle plate and the adsorption cotton layer, the extrusion rods are respectively and fixedly connected with corresponding baffling pressure plates, one side of the baffling frame is provided with an adjusting groove matched with the extrusion rods, the adjusting groove is connected with the extrusion rod in a sliding way, a buffer groove is arranged at the end part of the extrusion rod in the adjusting groove, a buffer block which is connected in a sliding way is arranged in the buffer groove, a first hydraulic rod which is fixedly connected is arranged in the adjusting groove, the extending end of the first hydraulic rod is fixedly connected with the buffer block, a U-shaped groove is arranged in the buffer groove, an adjusting line is arranged in the U-shaped groove, one end of the adjusting line is fixedly connected with the buffer block, a diversion trench is arranged at the bottom of the adjusting groove, the other end of the adjusting line sequentially and movably penetrates through the buffer block and the flow guide groove to be connected with the extrusion screen plate.

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

on the basis of original MBR membrane treatment, set up the equalizing basin in equipment main part bottom to integrated the processing has been formed, the design of scraper blade, can be effectual with the unified scraping of the impurity rubbish that the equalizing basin bottom precipitated send to the accumulator, then carry the collecting vat to in through auger conveying pole is unified, pass through the auger conveyer pipe at last, carry to the collection box in, realized the automatic unified recovery of precipitate.

Additional features and advantages of the invention will be set forth in the detailed description which follows.

Drawings

FIG. 1 is a schematic view of a front view structure provided by the present invention;

FIG. 2 is a schematic view of a connection structure of a recycling bin and a treating tower provided by the present invention;

FIG. 3 is a schematic side view of the apparatus body and the processing tower according to the present invention;

FIG. 4 is a schematic view of the connection structure of the extrusion screen and the baffle frame provided by the present invention;

FIG. 5 is a schematic view of a connection structure of a baffle plate and an extrusion rod provided by the present invention;

FIG. 6 is an enlarged schematic view of the invention at A of FIG. 4;

FIG. 7 is a schematic view of the internal structure of the recycling bin according to the present invention;

FIG. 8 is a schematic view of a connection structure of the garbage chute and the hot-melting gear provided by the present invention;

FIG. 9 is a schematic view of a connection structure of a second bottom plate and a fixing plate according to the present invention;

FIG. 10 is an enlarged view of the structure at B in FIG. 7 according to the present invention;

FIG. 11 is a schematic top view of the scraper and the conditioning tank according to the present invention;

the reference numbers in the figures illustrate: 1. an apparatus main body; 11. an equipment bin; 111. an aeration fan; 12. a middle water pool; 121. a connecting pipe; 122. a water outlet pipe; 13. an MBR membrane tank; 131. treating the film; 14. an aerobic chamber; 141. an exhaust hole; 142. an aeration pipe; 15. an anaerobic chamber; 151. a filler; 152. a water inlet hole; 16. a regulating tank; 161. a lift pump; 162. a riser tube; 163. a flow isolating plate; 164. a squeegee; 165. a second rotating shaft; 1651. a second drive line; 166. adjusting the motor; 167. a synchronization chain; 168. a first rotating shaft; 1681. a first transmission line; 17. an access hole; 18. a pipeline; 2. a treatment tower; 21. an air intake fan; 22. a return pipe; 23. a communicating pipe; 24. a shower pipe; 25. a filter screen plate; 26. extruding the screen plate; 261. a positioning sleeve; 262. positioning a rod; 263. fixing the rod; 264. brushing teeth; 27. a deflection frame; 271. a baffle plate; 272. a baffling pressure plate; 273. an absorbent cotton layer; 274. an extrusion stem; 2741. a buffer tank; 2742. a U-shaped groove; 2743. a buffer block; 2744. an adjustment line; 275. a fixed pulley; 276. a reflow frame; 277. a first hydraulic lever; 278. an adjustment groove; 279. a diversion trench; 28. adsorbing the ball; 3. a conveying motor; 31. a screw conveyor rod; 32. a recovery tank; 33. collecting tank; 34. a packing auger conveying pipe; 35. a recycling bin; 351. a discharging screen plate; 352. a drainage tube; 353. a reflux tank; 36. a diversion air pipe; 37. a refuse chute; 371. a feeding plate; 372. a regulating roller; 373. a plastic adjustment band; 3741. a first base plate; 3742. a second base plate; 3743. a second hydraulic rod; 3744. a return spring; 3745. a hot-melting toothed plate; 3746. a first hot-melt hole; 3747. a fixing plate; 3748. a second hot-melt hole; 3749. hot melting the cutting plate; 375. a discharge port; 3751. a sealing plate; 376. a discharge plate; 3761. discharging the material shaft; 3771. positioning wheels; 3772. thermally melting the gear; 3773. a drive shaft; 3774. an adjustment shaft; 3775. and recovering the motor.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further clarified by combining the concrete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not denote a unique embodiment.

Example 1

Referring to fig. 1-2, an automatic control device for sewage treatment comprises a device body 1, wherein an anaerobic chamber 15, an aerobic chamber 14, an MBR membrane tank 13, a middle water tank 12 and a device chamber 11 are sequentially arranged in the device body 1, a water outlet pipe 122 for discharging water is arranged on one side of the middle water tank 12, maintenance ports 17 are respectively arranged on the anaerobic chamber 15, the aerobic chamber 14 and the MBR membrane tank 13, a regulating tank 16 is arranged at the bottom of the device body 1, a water inlet pipe is arranged at one end of the regulating tank 16, a lift pump 161 is arranged at the other end of the regulating tank 16, a lift pipe 162 is arranged at the output end of the lift pump 161, the output end of the lift pipe 162 is communicated with a water inlet 152 of the anaerobic chamber 15, a scraper 164 capable of moving back and forth and used for scraping the bottom of the regulating tank 16 is arranged at the bottom of the regulating tank 16, a recovery tank 32 communicated with the bottom of the, be equipped with the auger that can rotate and be used for the impurity to carry pole 31 in the accumulator 32, be located auger and carry pole 31 delivery end one side the accumulator 32 outside is equipped with the collecting vat 33 that is linked together, be equipped with the auger conveyer pipe 34 that the slope upwards just is used for the impurity to carry in the collecting vat 33, auger conveyer pipe 34 output is equipped with the collection box 35 that is used for the impurity to retrieve.

Further, a conveying motor 3 is arranged on one side of the recovery tank 32, and the output end of the conveying motor 3 is connected with the auger conveying rod 31.

Further, a plurality of flow baffles 163 fixedly connected are arranged in the adjusting tank 16.

The design of the flow partition plate 163 can effectively improve the retention time of the sewage in the regulating reservoir 16, thereby improving the settling efficiency of the sewage in the regulating reservoir 16.

Further, filler 151 is arranged in the anaerobic bin 15, an aeration pipe 142 is arranged in the aerobic bin 14, a treatment membrane 131 is arranged in the MBR membrane tank 13, an aeration fan 111 is arranged in the equipment bin 11, the aeration fan 111 is communicated with the aeration pipe 142, exhaust holes 141 are formed in one sides of the adjusting tank 16, the anaerobic bin 15, the aerobic bin 14 and the MBR membrane tank 13, a treatment tower 2 and an air inlet fan 21 for waste gas treatment and discharge are arranged on one side of the equipment main body 1, the air inlet end of the air inlet fan 21 is respectively communicated with the corresponding exhaust holes 141 through a pipeline 18, a communicating pipe 23 is arranged at the air outlet end of the air inlet fan 21, and the output end of the communicating pipe 23 is communicated with the air inlet end of the treatment tower 2.

Anaerobic storehouse 15, good oxygen storehouse 14 and MBR membrane cisterna 13 are the prior art in the MBR membrane water treatment, and too much description is not carried out to this application, and the design of treatment tower 2 makes the waste gas that equipment main part 1 produced, can carry out unified collection and handle the back and discharge, the effectual leakage that prevents waste gas.

Referring to fig. 3, a spray pipe 24 for spraying is arranged in the middle of the treatment tower 2, a fixedly connected filter screen plate 25 is arranged in the treatment tower 2 above the spray pipe 24, a plurality of compressible adsorption balls 28 are uniformly laid on the filter screen plate 25, an extrusion screen plate 26 capable of moving up and down and used for extruding the adsorption balls 28 is arranged above the filter screen plate 25, a fixedly connected baffle frame 27 is arranged in the treatment tower 2 on the extrusion screen plate 26, a plurality of uniform and fixedly connected baffle plates 271 are arranged in the baffle frame 27, the adsorption cotton layer 273 fixedly connected is arranged on the same side of each baffle plate 271, and a baffle pressing plate 272 capable of moving back and forth and used for extruding the adsorption cotton layer 273 is arranged on the other side of each baffle plate 271.

The spraying and adsorption ball 28 is combined, so that waste gas can be effectively treated, adsorption can be effectively performed, the treatment efficiency is improved, the liquid carried in the air flow can be effectively separated due to the design of the baffle plate 271, the loss of the liquid is reduced, and the treatment efficiency can be further improved; the design of the screen pressing plate can timely extrude the adsorption balls 28 and timely extrude the liquid adsorbed in the adsorption balls 28 by utilizing the screen pressing plate, so that the adsorption efficiency of the adsorption balls 28 is ensured, and the overall treatment efficiency is ensured; utilize and adsorb cotton layer 273, the gas-liquid separation efficiency of improvement baffling board 271 that can step forward, baffling clamp plate 272 can extrude adsorbing cotton layer 273, and the liquid that will adsorb on the cotton layer 273 carries out timely extrusion and guarantees the holistic adsorption efficiency of adsorbing cotton layer 273.

Referring to fig. 4-6, the middle of the baffle frame 27 is provided with a squeezing rod 274 capable of moving back and forth, the squeezing rod 274 penetrates through the corresponding baffle plate 271 and the absorbent cotton layer 273, the squeezing rod 274 is fixedly connected with the corresponding baffle pressing plate 272, one side of the baffle frame 27 is provided with an adjusting tank 278 matched with the squeezing rod 274, the adjusting tank 278 is slidably connected with the squeezing rod 274, the end of the squeezing rod 274 located in the adjusting tank 278 is provided with a buffer tank 2741, the buffer tank 2741 is provided with a buffer block 2743 in a sliding connection manner, the adjusting tank 278 is provided with a first hydraulic rod 277 in a fixed connection manner, the extending end of the first hydraulic rod 277 is fixedly connected with the buffer block 2743, the buffer tank 2741 is provided with a U-shaped tank 2742, the U-shaped tank 2742 is provided with an adjusting wire 2744, one end of the adjusting wire 2744 is fixedly connected with the buffer block 2743, the bottom of the adjusting tank 278 is provided with a guiding tank 279, the other end of the adjusting line 2744 is sequentially and movably connected with the extrusion net plate 26 through a buffer block 2743 and a diversion trench 279.

The design of the extrusion rod 274, the buffer groove 2741, the first hydraulic rod 277, the buffer block 2743 and the adjusting line 2744 is utilized, the extension of the first hydraulic rod 277 is utilized to drive the buffer block 2743 to move towards the inside of the buffer groove 2741, and the adjusting line 2744 is inevitably loosened, so that the extrusion screen plate 26 moves downwards, the adsorption ball 28 can be fully extruded by the gravity of the extrusion screen plate 26, meanwhile, after the buffer block 2743 is contacted with the buffer groove 2741, the first hydraulic rod 277 continues to extend, the buffer block 2743 drives the extrusion rod 274 to move forwards, so that the extrusion rod 274 drives the baffling pressure plate 272 to move towards the adsorption cotton layer 273, liquid in the adsorption cotton layer 273 is extruded and discharged in time, when the extrusion rod 274 continues to be driven to move forwards by the buffer block 2743, the adjusting line 2744 can simultaneously drive the extrusion screen plate 26 to move upwards, so that the extrusion screen plate 26 is separated from the adsorption ball 28, when the first hydraulic rod 277 begins to shrink, the extrusion rod 274 can be driven to restore the initial position, meanwhile, the extrusion of the up-and-down movement of the extrusion screen plate 26 is also completed, the first hydraulic rod 277 is ingeniously utilized to drive the extrusion rod 274 to move back and forth, and meanwhile, the adjustment wire 2744 drives the extrusion screen plate 26 to move up and down to extrude the adsorption balls 28.

Further, extrusion otter board 26 middle part is equipped with fixed connection's locating lever 262, locating lever 262 is the heliciform, and the cover is equipped with assorted position sleeve 261 on the locating lever 262, position sleeve 261 both sides are equipped with 2 inner walls fixed connection's of processing tower dead lever 263, the locating lever 262 top is equipped with fixed connection's fixed pulley 275, regulation line 2744 passes fixed pulley 275 and locating lever 262 top fixed connection, extrusion otter board 26 bottom is equipped with a plurality of fixed connection's brush tooth 264.

The heliciform of locating lever 262, including assorted position sleeve 261, the thinking of hand push bamboo dragonfly has been utilized, make locating lever 262 in the in-process of up-and-down motion, can rotate, including the design of brush tooth 264, can be before extrusion otter board 26 contact adsorbs ball 28, li stands brave rotatory brush tooth 264 and combs the ball 28 that adsorbs of upper surface, make the more even of overall distribution, effectually prevented that the air current too big leads to adsorbing ball 28 to distribute inhomogeneous, thereby the leak appears, influence the adsorption ball 28 to the adsorption filtration effect of air current.

Further, a U-shaped backflow frame 276 fixedly connected with the bottom of the baffling pressing plate 272 on one side of the absorbent cotton layer 273 is arranged.

The design of backward flow frame 276, the liquid that can be effectual extrudees baffling pressure plate 272 is flowed down to the treatment column 2 lateral wall through backward flow frame 276 water conservancy diversion, reduces the influence of the liquid of drippage to adsorption ball 28.

Further, a connecting pipe 121 is arranged on one side of the middle water pool 12, the output end of the connecting pipe 121 is communicated with a spraying pipe 24, a return pipe 22 is arranged at the bottom of the treatment tower 2, and the return pipe 22 is communicated with the regulating pool 16.

The recycled water treated by the recycled water tank 12 is used as the spraying liquid, so that the full utilization is realized, the cost is reduced, and the liquid after the spraying treatment can flow back to the regulating tank 16 by the design of the return pipe 22, so that the recycling is realized.

Referring to fig. 7-10, a downward inclined discharging screen plate 351 is arranged in the recycling bin 35 at the output end of the auger conveying pipe 34, a backflow groove 353 for wastewater backflow is arranged at the bottom of the discharging screen plate 351, the backflow groove 353 is inclined, a drainage pipe 352 is arranged at the bottom of the backflow groove 353, the drainage pipe 352 is communicated with one side of the adjusting tank 16, a garbage groove 37 for impurity recycling is arranged at the bottom of the discharging screen plate 351, a feeding plate 371 which is inclined downward and symmetrically distributed is arranged at the inlet of the garbage groove 37, adjusting rollers 372 which are rotatably connected are arranged at the bottom of the feeding plate 371, plastic adjusting belts 373 which are uniformly wound are arranged on the adjusting rollers 372, positioning plates which are fixedly connected are arranged on two side walls of the garbage groove 37 between the two feeding plates 371, and a hot melting gear 3772 which is rotatably arranged in direct hot melting connection between the two plastic adjusting belts 373 is arranged in the middle of one side, one side of the positioning plate, which is located at the upper end and the lower end of the hot melting gear 3772, is provided with a positioning wheel 3771 which can rotate and is used for conveying and positioning the two plastic adjusting belts 373, one side wall of the garbage can 37, which is located below the plastic adjusting belts 373, is provided with a first bottom plate 3741 which can move back and forth, and the other side wall of the garbage can 37, which is located below the plastic adjusting belts 373, is provided with a hot melting mechanism which can move back and forth and is used for hot melting sealing and hot melting cutting of the.

Through the hot-melting gear 3772, the edges of the two plastic adjusting belts 373 can be effectively connected in a hot-melting manner, and the hot-melting mechanism can effectively connect the bottoms of the two plastic adjusting belts 373 in a hot-melting manner, so that the two plastic adjusting belts 373 form a combined plastic bag, impurities can be timely recovered by using the plastic bag, the combined form does not need to be replaced by a user every time, and the cutting and sealing functions of the hot-melting mechanism can realize complete sealing after the plastic bag is filled with the plastic bag, so that the user does not need to perform manual ribbon binding, the use is very convenient and fast, and meanwhile, the leakage of malodorous gas in the impurities is effectively prevented; the design of locating wheel 3771 can be effectual with two plastics adjusting band 373 realization synchronous transport to and the further extrusion after the hot melt connection is fixed, guarantee the stability of connecting.

Further, the hot melting gear 3772 and the positioning wheel 3771 are respectively provided with a transmission shaft 3773 fixedly connected, the transmission shafts 3773 are rotatably connected with the inner wall of the corresponding garbage groove 37, a transmission chain is connected between the adjacent transmission shafts 3773, the bottom of the garbage groove 37 is provided with a rotatable adjusting shaft 3774, the adjusting shaft 3774 is connected with the corresponding transmission shaft 3773 through a chain, one side of the garbage groove 37 is provided with a recovery motor 3775, and the output end of the recovery motor 3775 is connected with the adjusting shaft 3774.

By using the recycling motor 3775, the adjusting shaft 3774 drives the transmission shaft 3773 to synchronously move, so that the synchronous rotation of the hot melting gear 3772 and the positioning wheel 3771 is realized.

Further, the upper end of the recycling box 35 is provided with a diversion air pipe 36, and the diversion air pipe 36 is communicated with the air inlet end of the air inlet fan 21.

Utilize air intake fan 21, the gaseous back of carrying out recovery processing with in the collection box 35 that can be timely discharges, the effectual accumulation that prevents foul gas in the collection box 35, the effectual emission that prevents foul gas.

Further, the hot melting mechanism comprises a hot melting cutting plate 3749, a hot melting toothed plate 3745 and a second bottom plate 3742, a fixing plate 3747 for extruding and fixing the plastic adjusting belt 373 is arranged on one side of the second bottom plate 3742, first hot melting holes 3746 are formed in the upper end and the lower end of the fixing plate 3747, the first hot melting toothed plate 3745 is arranged in the first hot melting holes 3746, the hot melting toothed plate 3745 is fixedly connected with the second bottom plate 3742, a second hot melting hole 3748 is formed in the middle of the fixing plate 3747, a matched hot melting cutting plate 3749 is arranged in the second hot melting holes 3748, the hot melting cutting plate 3749 is fixedly connected with the corresponding second bottom plate 3742, and a plurality of connected return springs 3744 are arranged between the second bottom plate 3742 and the fixing plate 3747.

Two hot melt pinion rack 3745's design about can be with forming between the plastics regulation band 373 at upper and lower both ends to connect sealedly, and the cutting to plastics regulation band 373 can be realized to hot melt cutting board 3749's design to the plastic bag that makes full of impurity can be in time separation after sealed, thereby realizes lasting use.

Further, a discharge hole 375 is formed in one side of the garbage can 37, a sealing plate 3751 which is rotatably connected and used for sealing the discharge hole 375 is arranged in the discharge hole 375, a discharge plate 376 which is rotatably connected is arranged on one side of the bottom of the garbage can 37, a discharge shaft 3761 which is rotatably connected is arranged between the discharge plate 376 and the garbage can 37, and a torsion spring used for restoring the initial position of the discharge plate 376 is arranged on the discharge shaft 3761.

Go out the design of flitch 376, make plastics regulation band 373 drop on going out flitch 376 after adorning the hot melt cutting with rubbish, it can be because gravity to go out flitch 376, autogiration is the slope form, plastics regulation band 373 after the cutting can automatic landing to discharge gate 375, strut sealing plate 3751, drop to the collecting box outside, after dropping, sealing plate 3751 is because gravity, the initial position resumes automatically, seal up the collection box 35, the leakproofness of collection box 35 has been guaranteed, the effectual outer hourglass that has prevented waste gas.

Wherein, hot melt gear 3772, hot melt cutting board 3749 and hot melt pinion rack 3745 all utilize the difference of temperature, realize connecting and cutting between plastic adjusting belt 373, as to how to adjust the temperature of hot melt cutting board 3749 and hot melt pinion rack 3745, and how much degree of regulation, and the temperature of every can be controlled through resistance heating wire to the technical staff in the art, as to the specific numerical value of temperature, the technical staff in the art can learn through many times of experiments.

Further, the first bottom plate 3741 and the second bottom plate 3742 are both provided with a second hydraulic rod 3743 fixedly connected thereto, and the second hydraulic rods 3743 are respectively connected with the inner walls of the corresponding garbage chutes 37.

Referring to fig. 11, a rotatable first rotating shaft 168 is disposed at the bottom of the adjusting tank 16 at one side of the scraping plate 164, a rotatable second rotating shaft 165 is disposed at the bottom of the adjusting tank 16 at the other side of the scraping plate 164, a plurality of first transmission lines 1681 fixedly connected to the first rotating shaft 168 are disposed on the first rotating shaft 168, the first transmission lines 1681 are driven to be fixedly connected to one side of the corresponding scraping plate 164, a plurality of second transmission lines 1651 fixedly connected to the second rotating shaft 165 are disposed on the second rotating shaft 165, the second transmission lines 1651 are fixedly connected to the other side of the corresponding scraping plate 164, an adjusting motor 166 is disposed at the outer side of the adjusting tank 16, an output end of the adjusting motor 166 is connected to the first rotating shaft 168, and a synchronization chain 167 is disposed between the first rotating shaft 168 and.

Utilize adjusting motor 166 to drive the rotation of first pivot 168, can make first drive line 1681 on the first pivot 168 expand, second drive line 1651 on the second pivot 165 twines simultaneously to drive scraper blade 164 towards accumulator 32 motion, thereby with the impurity of equalizing basin 16 deposit, unified transport to accumulator 32 in, carry to the collecting vat 33 in through auger conveying pole 31, then carry to the collection box 35 in through auger conveying pipe 34 in the collecting vat 33, realized the unified recovery of impurity rubbish.

Further, the height of the output end of the auger conveying pipe 34 is higher than that of the adjusting tank 16.

The preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, however, the present invention is not limited to the specific details of the above embodiments, and various simple modifications can be made to the technical solution of the present invention within the technical idea of the present invention, and these simple modifications are within the protective scope of the present invention.

It should be noted that the various features described in the above embodiments may be combined in any suitable manner without departing from the scope of the invention. The invention is not described in detail in order to avoid unnecessary repetition.

In addition, any combination of the various embodiments of the present invention is also possible, and the same should be considered as the disclosure of the present invention as long as it does not depart from the spirit of the present invention.

Claims

1. The utility model provides an automatic controlgear for sewage treatment, includes the equipment principal, be equipped with anaerobic compartment, good oxygen storehouse, MBR membrane cisterna, normal pond and equipment compartment in the equipment principal in proper order, well pond one side is equipped with the outlet pipe that is used for going out water, all be equipped with access hole, its characterized in that on anaerobic compartment, good oxygen storehouse and the MBR membrane cisterna: the equipment main part bottom is equipped with the equalizing basin, equalizing basin one end is equipped with the inlet tube, and the equalizing basin other end is equipped with the elevator pump, the elevator pump output end is equipped with the riser, the inlet opening intercommunication in riser output and anaerobic chamber, the equalizing basin bottom is equipped with the reciprocating motion and is used for the equalizing basin bottom to scrape dirty scraper blade, is located elevator pump one side the equalizing basin bottom is equipped with the accumulator that is linked together, be equipped with rotatable auger conveying pole that just is used for impurity transport in the accumulator, be located auger conveying pole transport end one side the accumulator outside is equipped with the collecting vat that is linked together, be equipped with the auger conveyer pipe that the slope upwards just is used for impurity transport in the collecting vat, auger conveyer pipe output is equipped with the collection box that is used for impurity recovery.

2. An automated control apparatus for wastewater treatment according to claim 1, characterized in that: the utility model discloses an equipment, including equalizing basin, anaerobic storehouse, aerobic storehouse and MBR membrane cisterna, the equalizing basin all is equipped with the exhaust hole, equipment main part one side is equipped with treatment tower and the air intake fan that is used for exhaust-gas treatment to discharge, air intake fan inlet end passes through the pipeline respectively with corresponding exhaust hole intercommunication, and air intake fan exhaust end is equipped with communicating pipe, communicating pipe output and treatment tower inlet end intercommunication.

3. An automated control apparatus for wastewater treatment according to claim 2, characterized in that: the improved sewage treatment device is characterized in that a spray pipe for spraying is arranged in the middle of the treatment tower, a fixedly connected filter screen plate is arranged above the spray pipe in the treatment tower, a plurality of compressible adsorption balls are uniformly laid on the filter screen plate, an extrusion screen plate capable of moving up and down and used for adsorbing the balls for extrusion is arranged above the filter screen plate, a baffle frame fixedly connected with the baffle plate is arranged on the extrusion screen plate in the treatment tower, a plurality of baffle plates uniformly and fixedly connected with the baffle plate are arranged in the baffle frame, a fixed connection adsorption cotton layer is arranged on the same side of each baffle plate, and a baffle pressing plate capable of moving back and forth and used for adsorbing the cotton layer for extrusion is arranged on the other side of each.

4. An automated control apparatus for wastewater treatment according to claim 3, characterized in that: but baffling frame middle part is equipped with round trip movement's extrusion stem, corresponding baffling board and the cotton layer of absorption are passed in the equal activity of extrusion stem, and the extrusion stem respectively with corresponding baffling clamp plate fixed connection, baffling frame one side be equipped with extrusion stem assorted adjustment tank, adjustment tank and extrusion stem sliding connection are located the adjustment tank extrusion rod tip is equipped with the dashpot, be equipped with sliding connection's buffer block in the dashpot, be equipped with fixed connection's first hydraulic stem in the adjustment tank, first hydraulic stem extends end and buffer block fixed connection, be equipped with the U-shaped groove in the dashpot, the U-shaped inslot is equipped with the regulation line, regulation line one end and buffer block fixed connection, the adjustment tank bottom is equipped with the guiding gutter, the regulation line other end is in proper order the activity to pass the buffer block and the guiding gutter is connected with the extrusion otter board.

5. An automated control apparatus for wastewater treatment according to claim 4, characterized in that: the utility model discloses a processing tower, including extrusion otter board, locating lever, fixed pulley, extrusion otter board bottom is equipped with a plurality of fixed connection's brush tooth.

6. An automated control apparatus for wastewater treatment according to claim 3, characterized in that: and a U-shaped backflow frame fixedly connected with the baffling pressure plate is arranged at the bottom of the baffling pressure plate and positioned on one side of the adsorption cotton layer.

7. An automated control apparatus for wastewater treatment according to claim 3, characterized in that: the reclaimed water tank is characterized in that a connecting pipe is arranged on one side of the reclaimed water tank, the output end of the connecting pipe is communicated with the spray pipe, a return pipe is arranged at the bottom of the treatment tower and is communicated with the regulating tank.

8. An automated control apparatus for wastewater treatment according to claim 1, characterized in that: the discharging screen plate is positioned at the output end of the auger conveying pipe, the recovering box is internally provided with a downward inclined discharging screen plate, the bottom of the discharging screen plate is provided with a backflow groove for wastewater backflow, the backflow groove is inclined, the bottom of the backflow groove is provided with a drainage pipe, the drainage pipe is communicated with one side of the regulating reservoir, the bottom of the discharging screen plate is provided with a garbage groove for impurity recovery, the inlet of the garbage groove is provided with feeding plates which are inclined downward and symmetrically distributed, the bottoms of the feeding plates are respectively provided with a regulating roller which is rotatably connected, the regulating rollers are respectively provided with a plastic regulating belt which is uniformly wound, two side walls of the garbage groove between the two feeding plates are respectively provided with a fixed connecting positioning plate, the middle part of one side of the positioning plate is provided with a hot melting gear which can rotate and is used for the straight connection of the two plastic regulating belts, and one side of the positioning plate positioned, one side wall of the garbage can below the plastic adjusting belt is provided with a first bottom plate capable of moving back and forth, and the other side wall of the garbage can below the plastic adjusting belt is provided with a hot melting mechanism capable of moving back and forth and used for hot melting sealing and hot melting cutting of the plastic adjusting belt.

9. An automated control apparatus for wastewater treatment according to claim 8, characterized in that: the hot melt mechanism includes hot melt cutting board, hot melt pinion rack and second bottom plate, second bottom plate one side is equipped with and is used for the fixed plate of plastics adjusting band extrusion, both ends all are equipped with first hot melt hole about the fixed plate, the downthehole assorted hot melt pinion rack that is equipped with of first hot melt, hot melt pinion rack and second bottom plate fixed connection, the fixed plate middle part is equipped with second hot melt hole, the downthehole assorted hot melt cutting board that is equipped with of second hot melt, hot melt cutting board and corresponding second bottom plate fixed connection, be equipped with a plurality of reset spring that are connected between second bottom plate and the fixed plate.

10. An automated control apparatus for wastewater treatment according to claim 1, characterized in that: be located scraper blade one side equalizing basin bottom is equipped with rotatable first pivot, is located the scraper blade opposite side equalizing basin bottom is equipped with rotatable second pivot, be equipped with a plurality of fixed connection's first transmission line in the first pivot, drive first transmission line and corresponding scraper blade one side fixed connection, be equipped with a plurality of fixed connection's second transmission line in the second pivot, second transmission line and corresponding scraper blade opposite side fixed connection, the equalizing basin outside is equipped with accommodate motor, the accommodate motor output is connected with first pivot, be equipped with the synchronous chain that is connected between first pivot and the second pivot.