CN114804325B - High-efficient anaerobic reactor of photolysis - Google Patents

Abstract

The invention relates to the technical field of anaerobic reactors, in particular to a photolysis high-efficiency anaerobic reactor, which comprises two water inlet pipes, wherein one water inlet pipe is connected with a reaction mechanism, a flushing mechanism is arranged on the reaction mechanism, an illumination mechanism is arranged on the other water inlet pipe, a fixing mechanism is arranged on the illumination mechanism, a driving mechanism is arranged in the water inlet pipe positioned on the illumination mechanism, a cleaning mechanism for cleaning the illumination mechanism is arranged on the driving mechanism, the cleaning mechanism is in conflict with the illumination mechanism, and a power mechanism is arranged on the water inlet pipe positioned on the illumination mechanism; one of them installs illumination mechanism on the inlet tube and promotes the oxidation to sewage, and inlet tube internally mounted has actuating mechanism, drives actuating mechanism and rotates when the inside sewage of inlet tube flows, is equipped with clearance mechanism on the actuating mechanism, and actuating mechanism drives clearance mechanism and rotates the spot on the illumination mechanism and clear up automatically, improves the blue light irradiation effect.

Description

High-efficient anaerobic reactor of photolysis

Technical Field

The invention relates to the technical field of anaerobic reactors, in particular to a photolysis efficient anaerobic reactor.

Background

The anaerobic fluidized bed reactor is an efficient biomembrane process. It uses sand and other substances with large surface area as carriers. Anaerobic microorganisms are bonded on the surface of sand or other carriers in a film form, and flow in sewage, and the microorganisms are contacted with organic matters in the sewage to adsorb and decompose the organic matters, so that the aim of treatment is achieved, and the photolytic anaerobic reactor is a means for promoting oxidation of the sewage through blue light.

However, when the current photolysis high-efficiency anaerobic reactor is used for conveying sewage, water with different temperatures passes through the inside of the pipeline, steam generated in the hot water is attached to the lamp belt, and when the lamp belt works for a long time, stains are attached to the lamp belt, and a mechanism for automatically cleaning the stains of the lamp belt is not arranged in the pipeline, so that the irradiation effect of the lamp belt is reduced, and the reaction of the sewage is not facilitated; and the three-phase separator at the bottom layer in the anaerobic reactor is in contact with sundries for a long time, the filter screen at the three-phase separator is easy to block, a mechanism for cleaning the filter screen is not arranged at the three-phase separator, and the sewage rising speed is reduced when sewage is subjected to secondary reaction.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a photolysis high-efficiency anaerobic reactor.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a high-efficient anaerobic reactor of photolysis, includes two inlet tubes, two pass through flange joint between the inlet tube, one of them be connected with reaction mechanism on the inlet tube, be equipped with the scouring mechanism on the reaction mechanism, another install the illumination mechanism on the inlet tube, install fixed establishment on the illumination mechanism, be located the inlet tube internally mounted on the illumination mechanism has actuating mechanism, install the clearance mechanism that decontaminates to the illumination mechanism on the actuating mechanism, clearance mechanism contradicts with the illumination mechanism, be located install power unit on the inlet tube on the illumination mechanism;

the illumination mechanism comprises a cover plate, the cover plate is fixed on the water inlet pipe of one end of the reaction mechanism through screws, a plurality of mounting seats are fixed at the bottom equidistance of the cover plate, a plurality of fixedly connected with fixed plates are arranged on the mounting seats, a lamp belt with an inverted-convex structure is slidingly connected to the side face of the fixed plates, the driving mechanism comprises two footrests, two footrests are fixedly connected to the bottom of the cover plate relatively, belt wheels are fixedly connected to the two footrests in a rotating mode, a belt is connected to the belt wheels, a first gear is fixedly connected to one belt wheel, a second gear is rotatably connected to the water inlet pipe of the cover plate, the first gear is meshed with the second gear, a rotating shaft is rotatably connected to the water inlet pipe of the cover plate, a third gear meshed with the second gear is fixedly connected to the rotating shaft, a plurality of fan blades in contact with sewage are fixedly connected to the rotating shaft, and the belt and the lamp belt are arranged in parallel.

Specifically, illumination mechanism still includes sealed pad, be equipped with sealed pad between apron and the inlet tube.

Specifically, the illumination mechanism further comprises biological films, and the inner walls of the two water inlet pipes are provided with the biological films.

Specifically, the diameter of the first gear is larger than that of the second gear, and the diameter of the second gear is larger than that of the third gear.

Specifically, fixed establishment includes a plurality of overcoat, the bottom equidistance fixedly connected with of apron is a plurality of overcoat, and is a plurality of the equal sliding connection in inside of overcoat has the slide bar, a plurality of the slide bar with a plurality of all the centre gripping has the second spring between the overcoat, a plurality of the bottom fixedly connected with inner panel of slide bar, the inner panel slides to inside the fixed plate, a plurality of through pull rod fixed connection between the slide bar, equidistant fixedly connected with rectangular structure's last latch on the inner panel, the lower latch of a plurality of slope settings of top equidistance fixedly connected with in lamp area, go up latch and lower latch meshing.

Specifically, clearance mechanism includes the connecting plate, the side fixedly connected with surface open-ended connecting plate of belt, relative sliding connection has two lateral wall open-ended conflict pieces on the connecting plate, two it holds two third springs respectively to press from both sides between conflict piece and the connecting plate, two equal fixedly connected with handle on the conflict piece, and two the handle runs through the connecting plate top, two press from both sides between the conflict piece and hold the cassette, the equal fixedly connected with curb plate in both sides of cassette, two the curb plate block respectively in the opening part of two conflict piece lateral walls, it has the brush to bond on the cassette, the brush is contradicted with the lamp area bottom, the length of connecting plate 701 is less than the distance between belt 503 to slide bar 602.

Specifically, power unit includes the chassis, the outside fixedly connected with chassis of the inlet tube of apron department, fixedly connected with roof on the chassis, sliding connection has the push pedal on the roof, install the motor in the push pedal, the equal fixedly connected with rubber wheel with the tip of pivot on the motor, the bottom of one of them rubber wheel and the top parallel and level of another rubber wheel, install the pneumatic cylinder on the roof, the pneumatic cylinder is connected with the push pedal.

Specifically, the reaction mechanism comprises a reactor body, the reactor body, another inlet tube is connected with the reactor body, install two three-phase separator on the reactor body, form high-efficient reaction zone between reactor body and one of them three-phase separator bottom, two form low-efficient reaction zone between the three-phase separator, another form the drainage zone between three-phase separator and the top of reactor body, be connected with the outlet pipe that corresponds with the drainage zone on the reactor body, gas-liquid separator is installed at reactor body top, two all be connected with the conveyer pipe between three-phase separator and the gas-liquid separator, be connected with the blast pipe on the gas-liquid separator.

Specifically, the flushing mechanism comprises a water tank, the bottom of the gas-liquid separator is connected with the water tank, a drainer is arranged in the water tank, a flushing pipe extending to the inside of the three-phase separator is connected to the drainer, a one-way valve is arranged on the flushing pipe, lower filter screens are arranged on the two three-phase separators, and the flushing pipe is correspondingly arranged with the lower filter screen on one of the three-phase separators.

Specifically, wash mechanism still includes two baffles, relative slope fixedly connected with two baffles on the water pipe, two equal sliding connection has the traveller that is T shape structure on the baffle, two the traveller with two all the centre gripping has first spring between the baffle, two the bottom fixedly connected with arc structure of traveller goes up the filter screen, the bottom equidistance of going up the filter screen is fixed with a plurality of inserted bars that correspond with lower filter screen hole.

The beneficial effects of the invention are as follows:

(1) According to the photolysis high-efficiency anaerobic reactor, one of the water inlet pipes is provided with the illumination mechanism for promoting oxidation of sewage, so that sewage reaction is facilitated, the driving mechanism is arranged in the water inlet pipe and drives the driving mechanism to rotate when sewage in the water inlet pipe flows, the cleaning mechanism is arranged on the driving mechanism and drives the cleaning mechanism to rotate so as to automatically clean stains on the illumination mechanism, the blue light irradiation effect is improved, and the sewage reaction is facilitated; namely: when sewage is treated, the sewage pipeline is connected with the water inlet pipe on the cover plate through the flange, the two water inlet pipes are connected together through the flange, the other water inlet pipe is connected with the reactor body, the flow speed of water in the water inlet pipe is controlled through the control valve, the highest water level in the water inlet pipe is ensured not to exceed the rotating shaft, the corrosion speed of the water inlet pipe can be reduced by the biomembrane in the water inlet pipe, the fan blades are driven to rotate when the water in the water inlet pipe flows into the reactor body, the third gear on the rotating shaft drives the second gear to rotate, the second gear drives the first gear to rotate, the diameters of the three gears are sequentially reduced, the first gear rotates more labor is saved, the belt wheel is driven to rotate by the belt wheel when the first gear rotates, then finally realized driving the connecting plate and rotate along with the belt, and then, realized that the brush on the cassette cleans the lamp area when the connecting plate rotates, realized the clearance to the spot, improve the effect of blue light to the irradiation of water, do benefit to the sewage reaction, and the length of connecting plate is less than the distance between band pulley and the slide bar, when the connecting plate rotates, the slide bar can not hinder the rotation of connecting plate, no longer clean the lamp area when the connecting plate rotates to the fixed plate top, pull two handles dorsad when needs change the brush, realized two third spring contractions, and two conflict pieces are moved dorsad, the curb plate is followed the opening roll-off of conflict piece lateral wall this moment, can change new cassette after taking out the cassette, easy operation does benefit to change the brush, and the sealed pad can avoid the peculiar smell to leak.

(2) According to the photolysis high-efficiency anaerobic reactor disclosed by the invention, the power mechanism is arranged on the outer side of the water inlet pipe, and when the sewage amount in the water inlet pipe is small, the power mechanism can be used for providing power for the driving mechanism, so that the continuous cleaning of the illumination mechanism is ensured; namely: when the inside water level of inlet tube is too low the flabellum is not enough pivoted, can be at the internally mounted level sensor of inlet tube this moment, after control device received the signal, pneumatic cylinder, the push pedal is pushed the outside of roll-off roof this moment, the motor is driven this moment, stop the motion of pneumatic cylinder after the rubber pulley on the motor contacts with epaxial rubber pulley, the motor has been realized the motor and has been driven the pivot rotation with the motor switch-on this moment, the third gear can drive the second gear again this moment, guarantee to clear up the lamp area continuously, do benefit to the illumination of blue light, do benefit to the sewage reaction.

(3) According to the photolysis high-efficiency anaerobic reactor, the flushing mechanism is arranged on the reaction mechanism, sewage in methane is collected by the flushing mechanism, the collected filtered sewage can be automatically discharged according to the collected water quantity, and water with larger power flows into the reaction mechanism to flush and rub the reaction mechanism, so that the reaction mechanism is prevented from being blocked, the sewage is beneficial to rising, and the water flow speed is ensured; namely: then the sewage in the marsh gas is flowed to the inside of water tank by gas-liquid separator and is collected, and the inside of water tank has the grid to avoid impurity in the sewage to block up drainer and check valve, the drainer is automatic to be opened after the inside sewage of water tank reaches a certain amount, similar public survey automatic flushing principle, sewage is discharged from the bottom of flushing pipe, the sewage of water tank can only be realized to the check valve, the inside sewage of reactor body can not enter into the inside of flushing pipe, press the upper filter screen after the inside sewage of flushing pipe is discharged, and the slide column slides on the baffle, first spring compression, and the inserted bar on the upper filter screen presses down the lower filter screen hole on the three-phase separator, and then realized the clearance to lower filter screen, avoid blockking up the influence rivers.

Drawings

The invention will be further described with reference to the drawings and examples.

FIG. 1 is a schematic diagram of the overall structure of a preferred embodiment of a photolytic high-efficiency anaerobic reactor according to the present invention;

FIG. 2 is a schematic diagram of the connection structure of the water inlet pipe, the reactor body, the water outlet pipe, the three-phase separator, the high-efficiency reaction zone, the low-efficiency reaction zone, the water discharge zone, the water tank, the water flushing pipe, the drainer and the gas-liquid separator of the present invention;

FIG. 3 is an enlarged schematic view of the portion A shown in FIG. 2;

FIG. 4 is a schematic view of the connection structure of the water inlet pipe, the cover plate, the mounting seat, the fixing plate, the lamp belt and the belt wheel of the invention;

FIG. 5 is an enlarged schematic view of the B-section structure shown in FIG. 4;

FIG. 6 is a schematic diagram of the connection structure of the water inlet pipe, the cover plate, the biological membrane, the mounting seat, the second gear, the rotating shaft, the third gear, the fan blade, the underframe, the top plate, the push plate, the hydraulic cylinder and the motor;

FIG. 7 is an enlarged schematic view of the structure of the portion C shown in FIG. 6;

FIG. 8 is a schematic view of the connection structure of the fixing plate, the lamp strip, the inner plate, the upper latch, the lower latch, the outer sleeve, the slide bar and the second spring of the present invention;

fig. 9 is a schematic view of a connection structure of a connection plate, a holder, a brush, a third spring, a contact block and a side plate according to the present invention.

In the figure: 1. a water inlet pipe; 2. an illumination mechanism; 201. a cover plate; 202. a mounting base; 203. a fixing plate; 204. a light strip; 205. a sealing gasket; 206. a biological membrane; 3. a reaction mechanism; 301. a reactor body; 302. a water outlet pipe; 303. a gas-liquid separator; 304. a delivery tube; 305. an exhaust pipe; 306. a three-phase separator; 307. a high efficiency reaction zone; 308. a low efficiency reaction zone; 309. a drainage area; 4. a flushing mechanism; 401. a water tank; 402. a water flushing pipe; 403. a one-way valve; 404. a baffle; 405. a spool; 406. a filter screen is arranged; 407. a first spring; 408. a rod; 409. a lower filter screen; 410. a drain; 5. a driving mechanism; 501. a belt wheel; 502. a top base; 503. a belt; 504. a first gear; 505. a second gear; 506. a rotating shaft; 507. a third gear; 508. a fan blade; 6. a fixing mechanism; 601. a jacket; 602. a slide bar; 603. a pull rod; 604. an upper latch; 605. a lower latch; 606. an inner plate; 607. a second spring; 7. a cleaning mechanism; 701. a connecting plate; 702. a clamping seat; 703. a brush; 704. a handle; 705. a collision block; 706. a third spring; 707. a side plate; 8. a power mechanism; 801. a chassis; 802. a top plate; 803. a hydraulic cylinder; 804. a push plate; 805. a motor; 806. and a rubber wheel.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

As shown in fig. 1-9, the photolysis high-efficiency anaerobic reactor comprises two water inlet pipes 1, wherein the two water inlet pipes 1 are connected through flanges, one water inlet pipe 1 is connected with a reaction mechanism 3, the reaction mechanism 3 is provided with a flushing mechanism 4, the other water inlet pipe 1 is provided with an illumination mechanism 2, the illumination mechanism 2 is provided with a fixing mechanism 6, the inside of the water inlet pipe 1 positioned on the illumination mechanism 2 is provided with a driving mechanism 5, the driving mechanism 5 is provided with a cleaning mechanism 7 for cleaning the illumination mechanism 2, the cleaning mechanism 7 is in contact with the illumination mechanism 2, and the water inlet pipe 1 positioned on the illumination mechanism 2 is provided with a power mechanism 8;

the illumination mechanism 2 comprises a cover plate 201, a cover plate 201 is fixed on a water inlet pipe 1 which is far away from one end of the reaction mechanism 3 through screws, a plurality of mounting seats 202 are fixed at the bottom of the cover plate 201 at equal intervals, a fixed plate 203 is fixedly connected to the plurality of mounting seats 202, a lamp belt 204 with an inverted-convex-shaped side surface structure is connected to the fixed plate 203 in a sliding mode, the driving mechanism 5 comprises two top seats 502, two top seats 502 are fixedly connected to the bottom of the cover plate 201 relatively, belt pulleys 501 are respectively connected to the two top seats 502 in a rotating mode, a belt 503 is connected to the two belt pulleys 501, a first gear 504 is fixedly connected to the water inlet pipe 1 which is positioned at the cover plate 201 and is in a rotating mode, a second gear 505 is meshed with the first gear 504, a rotating shaft 506 is connected to the water inlet pipe 1 which is positioned at the cover plate 201, a third gear 507 meshed with the second gear 505 is fixedly connected to the rotating shaft 506, a plurality of fan blades 206 which are in contact with sewage are in a rotating mode, a sealing mechanism 206 with the second gear 505 is arranged at equal intervals, a large diameter is arranged between the two large-diameter light inlet pipe 2 and the sealing mechanism 2, and the sealing mechanism 505 is arranged between the two large-diameter light inlet pipe 2 and the sealing mechanism is provided with the large-diameter of the water inlet pipe 2; the cleaning mechanism 7 comprises a connecting plate 701, a connecting plate 701 with an opening on the surface is fixedly connected to the side surface of the belt 503, two abutting blocks 705 with openings on the side walls are relatively and slidingly connected to the connecting plate 701, two third springs 706 are respectively clamped between the abutting blocks 705 and the connecting plate 701, handles 704 are fixedly connected to the abutting blocks 705, the handles 704 penetrate through the top of the connecting plate 701, a clamping seat 702 is clamped between the abutting blocks 705, side plates 707 are fixedly connected to the two sides of the clamping seat 702, the two side plates 707 are respectively clamped at the openings on the side walls of the two abutting blocks 705, brushes 703 are adhered to the clamping seat 702, the brushes 703 abut against the bottom of the lamp strip 204, the length of the connecting plate 701 is smaller than the distance between the belt 503 and the sliding rod 602, and when sewage is treated, the sewage pipeline is connected with the water inlet pipe 1 on the cover plate 201 through a flange, the two water inlet pipes 1 are connected together through the flange, the other water inlet pipe 1 is connected with the reactor body 301, the flow rate of water in the water inlet pipe 1 is controlled through a control valve, the highest water level in the water inlet pipe 1 is ensured not to exceed the rotating shaft 506, the biomembrane 206 in the water inlet pipe 1 can reduce the corrosion speed of the water inlet pipe 1, the fan blade 508 is driven to rotate when the water in the water inlet pipe 1 flows into the reactor body 301, at the moment, the third gear 507 on the rotating shaft 506 drives the second gear 505 to rotate, the second gear 505 drives the first gear 504 to rotate, the diameters of the three gears are sequentially reduced, the rotation of the first gear 504 is more labor-saving, and realized when first gear 504 rotates the band pulley 501 drives the belt 503 rotates, then finally realized to drive the connecting plate 701 rotates along with the belt 503, and then realized when connecting plate 701 rotates brush 703 on the cassette 702 cleans lamp area 204, realized the clearance to the spot, improve the effect of blue light to shining water, do benefit to sewage reaction, and the length of connecting plate 701 is less than band pulley 501 extremely distance between slide bar 602, when connecting plate 701 rotates, slide bar 602 can not hinder the rotation of connecting plate 701, when connecting plate 701 rotates to the fixed plate 203 top no longer cleans lamp area 204, when needs to change brush 703 pull relatively two handles 704, realized that two third spring 706 shrink, and two conflict piece 705 move relatively, at this moment the curb plate is followed the opening of block 705 lateral wall slips out, take out after the cassette 702 can be replaced with new brush 205 the easy operation of changing the sealed pad 703, can be avoided the peculiar smell to leak.

Specifically, the fixing mechanism 6 includes a plurality of jackets 601, the bottom of the cover 201 is fixedly connected with a plurality of jackets 601 at equal intervals, the insides of the jackets 601 are respectively and slidably connected with a slide bar 602, a plurality of second springs 607 are respectively and slidably held between the slide bars 602 and the jackets 601, the bottoms of the slide bars 602 are fixedly connected with an inner plate 606, the inner plate 606 slides into the fixing plate 203, the slide bars 602 are fixedly connected with each other through a pull rod 603, the inner plate 606 is fixedly connected with upper clamping teeth 604 with rectangular structures at equal intervals, the top of the lamp strip 204 is fixedly connected with a plurality of obliquely arranged lower clamping teeth 605, the upper clamping teeth 604 are meshed with the lower clamping teeth 605, when the lamp strip 204 needs to be replaced, the cover 201 is disassembled, the cover 201 is inverted to the ground, the pull rod 603 is held, pressing the pull rod 603 toward the outer sleeve 601 realizes the contraction of the second spring 607, further realizes the sliding out of the inner plate 606 from the inside of the fixed plate 203, at this time, the upper latch 604 is separated from the lower latch 605, at this time, the lamp strip 204 is pulled out from the inside of the fixed plate 203, after the new lamp strip 204 slides into the inside of the fixed plate 203, the pull rod 603 is opened, further realizes the opening of the second spring 607, and further, the inner plate 606 is reset, the upper latch 604 is meshed with the lower latch 605, the inclination direction of the lower latch 605 is opposite to the rotation direction of the first gear 504, then the lamp strip 204 does not shake when the brush 703 rubs, and after the replacement is completed, the cover plate 201 is fixed with the water inlet pipe 1 through screws.

Specifically, the power unit 8 includes chassis 801, the outside fixedly connected with chassis 801 of inlet tube 1 of apron 201 department, fixedly connected with roof 802 on the chassis 801, sliding connection has push pedal 804 on the roof 802, install motor 805 on the push pedal 804, motor 805 is last with the tip of pivot 506 all fixedly connected with rubber wheel 806, the bottom of one rubber wheel 806 and the top parallel and level of another rubber wheel 806, install pneumatic cylinder 803 on roof 802, pneumatic cylinder 803 is connected with push pedal 804, when the inside water level of inlet tube 1 is too low the time the flabellum 508 is insufficient to rotate, can be at this moment at the internally mounted level sensor of inlet tube 1, after control equipment received the signal, will pneumatic cylinder 803, at this moment push pedal 804 is promoted the roll-off the outside of roof 802, at this moment motor 805 is driven, when motor 805 on rubber wheel 806 with on the pivot 506 the rubber wheel contact back stop the motion of another rubber wheel 806, will motor 805 will be realized the motor 805 is driven by the gear 803 again to the pivot 506 has been driven to the gear 803 at this moment and the time has been done and the second blue light is guaranteed to rotate, the blue light can be continued to be shone on the pivot 803.

Specifically, the reaction mechanism 3 includes a reactor body 301, the other water inlet pipe 1 is connected with the reactor body 301, two three-phase separators 306 are installed on the reactor body 301, a high-efficiency reaction area 307 is formed between the reactor body 301 and the bottom of one of the three-phase separators 306, a low-efficiency reaction area 308 is formed between the two three-phase separators 306, a drainage area 309 is formed between the other three-phase separator 306 and the top of the reactor body 301, a water outlet pipe 302 corresponding to the drainage area 309 is connected on the reactor body 301, a gas-liquid separator 303 is installed on the top of the reactor body 301, a conveying pipe 304 is connected between the two three-phase separators 306 and the gas-liquid separator 303, an exhaust pipe 305 is connected on the gas-liquid separator 303, the inside of the water inlet pipe 1 flows into the high-efficiency reaction area 307 after entering the inside of the reactor body 301, the sewage after the reaction is reacted by one of the three-phase separators 306 enters the inside of the low-efficiency reaction area 308, the other three-phase separator 306 is further discharged into the inside of the sewage after the sewage, the other three-phase separator 306 flows into the inside of the sewage sediment tank after the sediment tank, the other three-phase separator 306 flows into the sediment tank, and the sediment tank is discharged from the inside the sediment tank 303, and the sediment tank is discharged from the sediment tank to the sediment tank, and the sediment tank is conveyed to the sediment tank 303.

Specifically, the flushing mechanism 4 includes a water tank 401, the bottom of the gas-liquid separator 303 is connected with the water tank 401, a drainer 410 is installed in the water tank 401, a flushing pipe 402 extending into the three-phase separator 306 is connected to the drainer 410, a one-way valve 403 is installed on the flushing pipe 402, lower filter screens 409 are installed on the two three-phase separators 306, the flushing pipe 402 is correspondingly arranged with the lower filter screens 409 on one of the three-phase separators 306, the flushing mechanism 4 further includes two baffle plates 404, two baffle plates 404 are fixedly connected to the flushing pipe 402 in a relatively inclined manner, a slide post 405 in a T-shaped structure is slidably connected to the two baffle plates 404, a first spring 407 is clamped between the two slide posts 405 and the two baffle plates 404, an upper filter screen 406 in an arc structure is fixedly connected to the bottom of the two slide posts 405, a plurality of inserted bars 408 corresponding to holes of a lower filter screen 409 are fixed at the bottom of the upper filter screen 406 at equal intervals, so that the gas-liquid separator 303 can collect sewage in biogas flowing into the water tank 401, a grid is arranged in the water tank 401 to prevent impurities in the sewage from blocking the drainer 410 and the one-way valve 403, when the sewage in the water tank 401 reaches a certain amount, the drainer 410 is automatically opened, similar to the public automatic flushing principle, the sewage is discharged from the bottom of the flushing pipe 402, the one-way valve 403 can only discharge the sewage in the water tank 401, the sewage in the reactor body 301 cannot enter the flushing pipe 402, the upper filter screen 406 is pressed after the sewage in the flushing pipe 402 is discharged, the slide column 405 slides on the baffle 404, the first spring 407 compresses, and the insert rod 408 on the upper filter 406 presses the holes of the lower filter 409 on the three-phase separator 306, so as to clean the lower filter 409, thereby avoiding blocking to affect the water flow.

When the invention is used, firstly, when sewage is treated, a sewage pipeline is connected with the water inlet pipe 1 on the cover plate 201 through a flange, the two water inlet pipes 1 are connected together through the flange, the other water inlet pipe 1 is connected with the reactor body 301, the flow rate of water in the water inlet pipe 1 is controlled through the control valve, the highest water level in the water inlet pipe 1 is ensured not to exceed the rotating shaft 506, the biomembrane 206 in the water inlet pipe 1 can reduce the corrosion rate of the water inlet pipe 1, the fan blade 508 is driven to rotate when the water in the water inlet pipe 1 flows into the reactor body 301, the third gear 507 on the rotating shaft 506 drives the second gear 505 to rotate, the second gear 505 drives the first gear 504 to rotate, the diameters of the three gears are sequentially reduced, the first gear 504 rotates more labor is saved, the belt 501 drives the belt 503 to rotate when the first gear 504 rotates, finally, the connection plate 701 is driven to rotate along with the belt 503, further, the brush 703 on the clamping seat 702 cleans the lamp belt 204 when the connection plate 701 rotates, cleaning of stains is realized, the irradiation effect of blue light on water is improved, the sewage reaction is facilitated, the length of the connection plate 701 is smaller than the distance between the belt wheel 501 and the slide rod 602, the slide rod 602 can not obstruct the rotation of the connection plate 701 when the connection plate 701 rotates, the lamp belt 204 is not cleaned when the connection plate 701 rotates to the top of the fixed plate 203, two handles 704 are pulled back to back when the brush 703 needs to be replaced, shrinkage of two third springs 706 is realized, the two abutting blocks 705 move back to back, at the moment, the side plates 707 slide out from the openings on the side walls of the abutting blocks 705, the new clamping seat 702 can be replaced after the clamping seat 702 is taken out, the operation is simple, the replacement of the brush 703 is facilitated, and the gasket 205 can prevent the leakage of odor; then, when the lamp strip 204 needs to be replaced, the cover plate 201 is disassembled, the cover plate 201 is inverted to the ground, the pull rod 603 is held, the pull rod 603 is pressed towards the direction of the outer sleeve 601, the second spring 607 is contracted, the inner plate 606 is further slid out of the inner part of the fixed plate 203, at the moment, the upper clamping teeth 604 are separated from the lower clamping teeth 605, the lamp strip 204 is pulled out of the inner part of the fixed plate 203, after the new lamp strip 204 is slid into the inner part of the fixed plate 203, the pull rod 603 is opened, the second spring 607 is further opened, the inner plate 606 is reset, the upper clamping teeth 604 are meshed with the lower clamping teeth 605, the inclined direction of the lower clamping teeth 605 is opposite to the rotating direction of the first gear 504, the lamp strip 204 does not shake when the brush 703 rubs, and the cover plate 201 is fixed with the water inlet pipe 1 through screws after the replacement is completed; secondly, when the fan blade 508 is insufficient to rotate when the internal water level of the water inlet pipe 1 is too low, a liquid level sensor can be installed in the water inlet pipe 1 at the moment, after receiving a signal, the control equipment pneumatically drives the hydraulic cylinder 803, the push plate 804 is pushed to slide out of the top plate 802 at the moment, the motor 805 is driven at the moment, when the rubber wheel 806 on the motor 805 is contacted with the rubber wheel 806 on the rotating shaft 506, the movement of the hydraulic cylinder 803 is stopped, at the moment, the motor 805 is connected with a power supply to drive the rotating shaft 506 to rotate, at the moment, the third gear 507 can drive the second gear 505 to rotate, continuous cleaning of the lamp belt 204 is guaranteed, the irradiation of blue light is facilitated, and the sewage reaction is facilitated; finally, the internal water of the water inlet pipe 1 flows into the reactor body 301 and then enters the high-efficiency reaction zone 307 for reaction, the reacted sewage enters the low-efficiency reaction zone 308 for reaction by one of the three-phase separators 306, the further sewage flows into the drainage zone 309 for reaction by the other three-phase separator 306, the sewage is discharged from the water outlet pipe 302 and flows into the sedimentation tank for sedimentation, the conveying pipe 304 conveys the biogas in the sewage into the gas-liquid separator 303 for collecting the biogas, and the biogas flows into the exhaust pipe 305 from the gas-liquid separator 303 and finally is stored in the biogas storage equipment; then the gas-liquid separator 303 collects the sewage in the biogas flowing into the water tank 401, the grid is arranged in the water tank 401 to prevent impurities in the sewage from blocking the drainer 410 and the one-way valve 403, when the sewage in the water tank 401 reaches a certain amount, the drainer 410 is automatically opened, similar to the public automatic flushing principle, the sewage is discharged from the bottom of the flushing pipe 402, the one-way valve 403 can only realize the sewage discharge of the water tank 401, the sewage in the reactor body 301 cannot enter the flushing pipe 402, the upper filter screen 406 is pressed after the sewage in the flushing pipe 402 is discharged, the slide column 405 slides on the baffle 404, the first spring 407 compresses, and the insert rod 408 on the upper filter screen 406 presses the holes of the lower filter screen 409 on the three-phase separator 306, so that the cleaning of the lower filter screen 409 is realized, and the blocking is prevented from affecting the water flow.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (2)

1. The utility model provides a high-efficient anaerobic reactor of photolysis, its characterized in that includes two inlet tube (1), two pass through flange joint between inlet tube (1), one of them be connected with reaction mechanism (3) on inlet tube (1), be equipped with on reaction mechanism (3) and wash out mechanism (4), another install illumination mechanism (2) on inlet tube (1), install fixed establishment (6) on illumination mechanism (2), be located inlet tube (1) internally mounted on illumination mechanism (2) have actuating mechanism (5), install on actuating mechanism (5) and carry out clean-up mechanism (7) of decontaminating to illumination mechanism (2), clean-up mechanism (7) contradict with illumination mechanism (2), be located install power unit (8) on inlet tube (1) on illumination mechanism (2);

the illumination mechanism (2) comprises a cover plate (201), a plurality of mounting seats (202) are fixedly arranged at the bottom of the cover plate (201) at equal intervals, a plurality of fixing plates (203) are fixedly connected to the mounting seats (202), lamp belts (204) with inverted-convex structures are slidingly connected to the fixing plates (203), the driving mechanism (5) comprises two top seats (502), two top seats (502) are fixedly connected to the bottom of the cover plate (201) relatively, belt wheels (501) are rotatably connected to the two top seats (502), belts (503) are connected to the two belt wheels (501), a first gear (504) is fixedly connected to the belt wheels (501), a second gear (505) is rotatably connected to the water inlet pipe (1) at the cover plate (201), the first gear (504) is meshed with the second gear (505), a second gear (506) is rotatably connected to the water inlet pipe (201), a plurality of rotary shafts (506) are fixedly connected to the rotary shafts (506) at the cover plate (201), and the rotary shafts (506) are fixedly meshed with the rotary shafts (507), the belt (503) is arranged in parallel with the lamp belt (204); the illumination mechanism (2) further comprises biological films (206), and the inner walls of the two water inlet pipes (1) are respectively provided with the biological films (206);

the diameter of the first gear (504) is larger than that of the second gear (505), and the diameter of the second gear (505) is larger than that of the third gear (507);

the fixing mechanism (6) comprises a plurality of jackets (601), wherein the bottoms of the cover plates (201) are fixedly connected with a plurality of jackets (601) at equal intervals, the interiors of the jackets (601) are respectively and slidably connected with a slide rod (602), a plurality of second springs (607) are respectively clamped between the slide rods (602) and the jackets (601), the bottoms of the slide rods (602) are fixedly connected with an inner plate (606), the inner plate (606) slides to the inside of the fixing plate (203), the slide rods (602) are fixedly connected through pull rods (603), the upper clamping teeth (604) with rectangular structures are fixedly connected to the inner plates (606) at equal intervals, the tops of the lamp strips (204) are fixedly connected with a plurality of obliquely arranged lower clamping teeth (605) at equal intervals, and the upper clamping teeth (604) are meshed with the lower clamping teeth (605);

the cleaning mechanism (7) comprises a connecting plate (701), a connecting plate (701) with an opening in the surface is fixedly connected to the side face of the belt (503), two abutting blocks (705) with two side wall openings are connected to the connecting plate (701) in a sliding manner relatively, two third springs (706) are respectively clamped between the abutting blocks (705) and the connecting plate (701), handles (704) are fixedly connected to the abutting blocks (705), the handles (704) penetrate through the top of the connecting plate (701), a clamping seat (702) is clamped between the abutting blocks (705), side plates (707) are fixedly connected to the two sides of the clamping seat (702), the two side plates (707) are respectively clamped at the openings in the side walls of the two abutting blocks (705), brushes (703) are adhered to the clamping seat (702), the brushes (703) are abutted against the bottoms of the lamp belts (204), and the length of the connecting plate (701) is smaller than the distance between the belt (503) and the sliding bars (602);

the power mechanism (8) comprises a bottom frame (801), the outer side of a water inlet pipe (1) at the cover plate (201) is fixedly connected with the bottom frame (801), a top plate (802) is fixedly connected to the bottom frame (801), a push plate (804) is slidably connected to the top plate (802), a motor (805) is mounted on the push plate (804), rubber wheels (806) are fixedly connected to the ends of the motor (805) and the rotating shaft (506), the bottom of one rubber wheel (806) is flush with the top of the other rubber wheel (806), a hydraulic cylinder (803) is mounted on the top plate (802), and the hydraulic cylinder (803) is connected with the push plate (804);

the reaction mechanism (3) comprises a reactor body (301), wherein the reactor body (301) is connected with the other water inlet pipe (1) and the reactor body (301), two three-phase separators (306) are arranged on the reactor body (301), a high-efficiency reaction zone (307) is formed between the reactor body (301) and the bottom of one of the three-phase separators (306), a low-efficiency reaction zone (308) is formed between the two three-phase separators (306), a drainage zone (309) is formed between the other three-phase separator (306) and the top of the reactor body (301), a water outlet pipe (302) corresponding to the drainage zone (309) is connected to the reactor body (301), a gas-liquid separator (303) is arranged at the top of the reactor body (301), a conveying pipe (304) is connected between the two three-phase separators (306) and the gas-liquid separator (303), and an exhaust pipe (305) is connected to the gas-liquid separator (303);

the flushing mechanism (4) comprises a water tank (401), the bottom of the gas-liquid separator (303) is connected with the water tank (401), a drainer (410) is arranged in the water tank (401), a flushing pipe (402) extending to the inside of the three-phase separator (306) is connected to the drainer (410), a one-way valve (403) is arranged on the flushing pipe (402), lower filter screens (409) are arranged on the two three-phase separators (306), and the flushing pipe (402) is correspondingly arranged with the lower filter screen (409) on one of the three-phase separators (306); the flushing mechanism (4) further comprises two baffle plates (404), two baffle plates (404) are fixedly connected to the flushing pipe (402) in a relatively inclined mode, two slide columns (405) which are of T-shaped structures are connected to the baffle plates (404) in a sliding mode, first springs (407) are clamped between the slide columns (405) and the baffle plates (404), an upper filter screen (406) of an arc-shaped structure is fixedly connected to the bottom of the slide columns (405), and a plurality of inserted bars (408) corresponding to holes of a lower filter screen (409) are fixed to the bottom of the upper filter screen (406) in an equidistant mode.

2. The photolytic efficient anaerobic reactor according to claim 1, wherein: the illumination mechanism (2) further comprises a sealing gasket (205), and the sealing gasket (205) is arranged between the cover plate (201) and the water inlet pipe (1).