CN115054955B

CN115054955B - Low-energy-consumption tail water label extraction treatment system and application method thereof

Info

Publication number: CN115054955B
Application number: CN202210649653.7A
Authority: CN
Inventors: 蹇胜勇; 张旭慧; 吴旭; 宋梦怡
Original assignee: Jiangsu Huatai Ecological Environmental Protection Technology Co ltd
Current assignee: Jiangsu Huatai Ecological Environmental Protection Technology Co ltd
Priority date: 2022-06-10
Filing date: 2022-06-10
Publication date: 2023-08-18
Anticipated expiration: 2042-06-10
Also published as: CN115054955A

Abstract

The invention discloses a low-energy-consumption tail water label extraction treatment system and a use method thereof, belonging to the technical field of tail water label extraction treatment.

Description

Low-energy-consumption tail water label extraction treatment system and application method thereof

Technical Field

The invention relates to the technical field of tail water label extraction treatment, in particular to a low-energy-consumption tail water label extraction treatment system and a use method thereof.

Background

Along with the rapid development of population and social economy, the discharge amount of industrial wastewater and domestic sewage is increased, the construction and operation of a sewage treatment plant lightens the pollution load of sewage wastewater to surface water to a certain extent, and tail water standard extraction treatment operation is needed for improving the sewage drainage standard.

Through searching, chinese patent publication number is: the invention discloses a municipal sewage tail water label extraction treatment system and a use method thereof, and belongs to the technical field of tail water label extraction.

The problem that a large amount of impurities are attached to the inner wall of the treatment cylinder exists in the urban sewage tail water label extraction treatment system and the use method thereof, so that the impurities in the treatment cylinder cannot be cleaned timely, the sewage treatment efficiency is reduced, the problem that a sewage outlet at the bottom end of the treatment cylinder is easy to block is solved, the sewage discharge speed is low, the problem that sludge cannot be intensively treated is solved, secondary pollution is easy to occur, and the requirements of people cannot be met.

Disclosure of Invention

The invention aims to solve the problems that a large amount of impurities are adhered to the inner wall of a treatment cylinder barrel, a sewage outlet is easy to block and sludge cannot be treated in a centralized manner in the prior art, and provides a low-energy-consumption tail water label extraction treatment system and a use method thereof.

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

the utility model provides a low energy consumption tail water draws mark processing system, includes the equipment base, the top fixedly connected with pump that intakes of equipment base, the output pipeline connection of pump that intakes has the processing cylinder of equipment base top fixedly connected with, the air line is installed to the lateral wall of processing cylinder, the inner wall fixedly connected with backwash fan of processing cylinder, the lateral wall that the air line was kept away from to the processing cylinder is located the top pipe connection of equipment base has the PE bucket, the junction of PE bucket and processing cylinder is provided with the backwash water pump, the outer wall of PE bucket is located the top of backwash water pump and is provided with the retrieval and utilization pipeline of the fixed exercise of processing cylinder outer wall, the discharge gate is installed on the outer wall top of PE bucket, the middle top fixedly connected with drain tank that is located the equipment base of PE bucket and processing cylinder.

Preferably, the inner wall of handling the cylinder is located the top fixedly connected with of backwash fan and scrapes dirty mechanism, and scrapes dirty mechanism and handle the junction of cylinder and be provided with first dirty board of scraping, the bottom of handling the cylinder is located the top fixedly connected with of equipment base and prevents stifled mechanism, and prevents the inner wall sliding connection of stifled mechanism and prevent stifled board, the below of PE bucket is located the top fixedly connected with collection mechanism of equipment base, and the top of collection mechanism is provided with the collecting vat.

Preferably, the collecting mechanisms are provided with two groups, the position relation of the two groups of collecting mechanisms is symmetrical about the sewage draining groove, and the two groups of collecting mechanisms are respectively positioned under the PE barrel and the processing cylinder barrel.

Preferably, the dirt scraping mechanism comprises a dirt scraping motor, a dirt scraping screw rod, a sliding slider, a driving orifice plate, a swinging orifice groove, a first rotating plate, a driving connecting plate, a connecting slider, a limiting sliding groove, a driven connecting plate, a second rotating plate and a second dirt scraping plate, the outer wall fixedly connected with of the dirt scraping mechanism scrapes the dirt scraping motor, the output end of the dirt scraping motor is provided with the dirt scraping screw rod, the outer wall threaded connection of the dirt scraping screw rod is provided with a sliding slider in sliding connection with the outer wall of the dirt scraping mechanism, the bottom end of the sliding slider is movably connected with an active orifice plate which is rotatably connected with the inner wall of a processing cylinder barrel, the connecting position of the sliding slider is provided with a swinging orifice groove, one end fixedly connected with the first rotating plate which is fixedly connected with the first dirt scraping plate, the outer wall of the first rotating plate is rotatably connected with the connecting slider which is slidably connected with the inner wall of the processing cylinder barrel, and the connecting position of the connecting slider is provided with a limiting sliding groove, one end of the connecting slider which is far away from the driving connecting plate is provided with the connecting position of the second rotating plate which is connected with the first rotating plate which is rotatably connected with the second end of the first rotating plate, and the second rotating plate which is far away from the first end of the first rotating plate.

Preferably, the driving orifice plate forms a rotating structure with the processing cylinder through the sliding block and the swinging hole groove, the driving orifice plate is vertical to the first rotating plate, the connecting sliding block forms a sliding structure with the limiting sliding groove through the first rotating plate and the driving connecting plate, the second rotating plate forms a rotating structure with the processing cylinder through the connecting sliding block and the driven connecting plate, and the rotating center of the second rotating plate coincides with the rotating center of the driving orifice plate.

Preferably, the anti-blocking mechanism comprises a working motor, a rotating screw rod, a lifting sliding block, a sliding connecting plate, a sliding guide pillar and a limiting guide groove, wherein the working motor is fixedly connected with the outer wall of the anti-blocking mechanism, the rotating screw rod is installed at the output end of the working motor, the lifting sliding block which is in sliding connection with the outer wall of the anti-blocking mechanism is connected with the outer wall of the rotating screw rod in a threaded manner, the side wall of the lifting sliding block is screwed with the sliding connecting plate, the bottom end of the sliding connecting plate is screwed with the sliding guide pillar which is screwed with the side wall of the anti-blocking plate, and the limiting guide groove is formed in the connecting part of the sliding guide pillar and the anti-blocking mechanism.

Preferably, the sliding connecting plates are provided with two groups, and a sliding structure is formed between the sliding guide posts and the limiting guide grooves through the lifting sliding blocks, and the sliding length of the sliding guide posts is equal to the radius of the bottom end of the processing cylinder barrel.

Preferably, the collection mechanism includes screw thread bull stick, direction slider, direction orifice plate, work guide pillar, promotes the guide slot, upset guide slot, spacing guide pillar and slip guide slot, the screw thread bull stick is installed on the top of collection mechanism, and the outer wall threaded connection of screw thread bull stick has the direction slider, the top fixedly connected with direction orifice plate of direction slider, and the inner wall swing joint of direction orifice plate have the work guide pillar that connects soon with the collection slot, the promotion guide slot has been seted up to the junction of work guide pillar and collection mechanism, and the one end that promotes the guide slot is located the outer wall of collection mechanism and has seted up the upset guide slot, the lower position of work guide pillar is located the lateral wall of collection slot and connects soon spacing guide pillar, and the slip guide slot has been seted up to the junction of spacing guide pillar and collection mechanism.

Preferably, the collecting groove forms a sliding structure between the guide hole plate and the working guide pillar and the pushing guide groove, the pushing guide groove is parallel to the sliding guide groove, the working guide pillar forms a sliding structure between one end of the guide hole plate and the sliding guide groove and the turning guide groove, and the turning guide groove is arc-shaped.

The scheme also provides a use method of the tail water extraction and labeling treatment system with low energy consumption, and the method comprises the following steps:

s1, when the device is used, firstly, sewage is injected into a treatment cylinder barrel through a water inlet pump, then, the treatment cylinder barrel is subjected to standing treatment through a backwashing fan so that impurities in the sewage are layered with water, then, water in the treatment cylinder barrel is injected into a PE barrel through a recycling pipeline, then, the water in the PE barrel is subjected to standing layering again, the water subjected to secondary standing is discharged through a discharge port, and meanwhile, the impurities in the PE barrel are injected into the treatment cylinder barrel through the backwashing water pump to perform secondary treatment operation;

s2, carrying out a scraping operation on the inner wall of the processing cylinder barrel, in the scraping mechanism, driving a sliding block to slide along the outer wall of the scraping mechanism by a scraping screw rod to enable the sliding block to slide, driving an orifice plate to rotate by swinging Kong Caodai, driving the orifice plate to rotate so as to drive a first rotating plate to synchronously rotate, further enabling the first rotating plate to rotate so as to drive a first scraping plate to slide along the inner wall of the processing cylinder barrel, and meanwhile, driving a connecting sliding block to slide along the inner wall of a limiting chute by a driving connecting plate so as to enable the connecting sliding block to slide to drive a second rotating plate to rotate by a driven connecting plate, further enabling the second rotating plate to rotate so as to drive a second scraping plate to slide along the inner wall of the processing cylinder barrel, and relatively sliding the first scraping plate and the second scraping plate along the inner wall of the processing cylinder barrel so as to realize a cleaning operation on the wall of the processing cylinder barrel;

s3, then, carrying out blowdown operation on the inside of the processing cylinder barrel, in the anti-blocking mechanism, operating the working motor to drive the rotating screw to rotate, so that the rotating screw rotates to drive the lifting slide block to vertically slide along the outer wall of the anti-blocking mechanism, the lifting slide block slides and drives the two groups of sliding guide posts to relatively slide along the two groups of limiting guide grooves through the two groups of sliding connecting plates, and then the sliding guide posts slide to drive the anti-blocking plates to relatively slide, and the blowdown operation on the processing cylinder barrel is realized through the two groups of anti-blocking plates to relatively slide.

S4, finally, carrying out centralized sewage disposal operation on the treatment cylinder barrel and the PE barrel, respectively injecting sludge in the treatment cylinder barrel and the PE barrel into two groups of collecting tanks, then, in the collecting mechanism, rotating the threaded rotating rod to drive the guide sliding block to slide along the outer wall of the collecting mechanism so that the guide sliding block slides to drive the guide pore plate to synchronously slide, and the guide pore plate slides to drive the working guide pillar to slide along the outer wall of the pushing guide groove, meanwhile, the limiting guide pillar slides along the sliding guide groove, when the working guide pillar slides into the overturning guide groove, the working guide pillar slides to drive the collecting tank to overturn, and the sludge in the collecting tank is poured into the sewage disposal tank, so that centralized sewage disposal operation on the treatment cylinder barrel and the PE barrel is realized.

Compared with the prior art, the invention provides a low-energy-consumption tail water extraction and labeling treatment system and a use method thereof, and the system has the following beneficial effects:

1. according to the low-energy-consumption tail water label extraction treatment system and the application method thereof, water in a treatment cylinder barrel is injected into a PE barrel through a recycling pipeline by arranging a backwash water pump, then the water in the PE barrel is subjected to standing layering, the water subjected to secondary standing is discharged through a discharge port, and meanwhile, impurities in the PE barrel are injected into the treatment cylinder barrel through the backwash water pump to perform secondary treatment operation, so that secondary treatment operation on sewage is realized;

2. according to the low-energy-consumption tail water label extraction processing system and the application method thereof, the first dirt scraping plate and the second dirt scraping plate are arranged, the sliding block drives the first rotating plate fixedly connected with the driving pore plate to rotate through the swinging pore groove, the first rotating plate rotates to drive the first dirt scraping plate to slide along the inner wall of the processing cylinder barrel, meanwhile, the first rotating plate rotates to drive the connecting sliding block to slide along the inner wall of the limiting chute through the driving connecting plate, so that the connecting sliding block slides to drive the second rotating plate to rotate through the driven connecting plate, and the second rotating plate rotates to drive the second dirt scraping plate to slide along the inner wall of the processing cylinder barrel, and thus the dirt cleaning operation on the wall of the processing cylinder barrel is realized;

3. according to the low-energy-consumption tail water label extraction treatment system and the application method thereof, through the arrangement of the anti-blocking plates, in the anti-blocking mechanism, the rotating screw rod rotates to drive the lifting slide block to vertically slide along the outer wall of the anti-blocking mechanism, the lifting slide block slides and drives the two groups of sliding guide posts to relatively slide along the two groups of limiting guide grooves through the two groups of sliding connecting plates, so that the sliding guide posts slide to drive the anti-blocking plates to slide, the two groups of anti-blocking plates relatively slide, the sliding length of the sliding guide posts is equal to the radius of the bottom end of the treatment cylinder barrel, and the pollution discharge anti-blocking operation on the treatment cylinder barrel is realized;

4. according to the low-energy-consumption tail water label extraction processing system and the application method thereof, the pushing guide groove and the sliding guide groove are arranged, the threaded rotating rod rotates to drive the guide sliding block to slide along the outer wall of the collecting mechanism, so that the guide sliding block slides to drive the guide pore plate to synchronously slide, the guide pore plate slides to drive the working guide pillar to slide along the outer wall of the pushing guide groove, meanwhile, the limiting guide pillar slides along the sliding guide groove, and the stable pushing operation of the collecting groove is realized through the sliding of the limiting guide pillar and the sliding of the working guide pillar;

5. according to the low-energy-consumption tail water label extraction treatment system and the application method thereof, the overturning guide groove is arranged, the guide sliding block slides to drive the guide pore plates to synchronously slide, the guide pore plates slide to drive the working guide columns to slide along the outer wall of the arc-shaped overturning guide groove, so that the working guide columns slide to drive the collecting groove to overturn, sludge in the collecting groove is poured into the pollution discharge groove, and the centralized pollution discharge operation on the treatment cylinder barrel and the PE barrel is realized.

Drawings

Fig. 1 is a schematic diagram of the overall structure of a low-energy-consumption tail water label extraction treatment system and a use method thereof.

Fig. 2 is a schematic diagram of an overall cross-sectional structure of a low-energy tail water label extraction treatment system and a use method thereof according to the present invention.

Fig. 3 is a schematic diagram of a first view angle structure of a dirt scraping mechanism of the low-energy tail water label extraction processing system and a using method thereof according to the present invention.

Fig. 4 is a schematic diagram of a second view angle structure of a dirt scraping mechanism of the tail water extraction and labeling treatment system with low energy consumption and a use method thereof.

Fig. 5 is a schematic diagram of a connection structure of an anti-blocking mechanism of a tail water extraction and labeling treatment system with low energy consumption and a use method thereof.

Fig. 6 is a schematic diagram of a partial cross-sectional structure of an anti-blocking mechanism of a tail water extraction and labeling system with low energy consumption and a using method thereof according to the present invention.

Fig. 7 is a schematic diagram of a connection structure of a collection mechanism of a tail water extraction and labeling treatment system with low energy consumption and a use method thereof.

Fig. 8 is a schematic diagram of a connection structure of a collection mechanism portion of the tail water extraction and labeling system with low energy consumption and the application method thereof.

In the figure: 1. an equipment base; 2. a water inlet pump; 3. processing the cylinder barrel; 4. an air line; 5. backwashing the fan; 6. PE barrel; 7. backwashing the water pump; 8. a recycling pipeline; 9. a discharge port; 10. a sewage draining groove; 11. a dirt scraping mechanism; 1101. a dirt scraping motor; 1102. a dirt scraping screw; 1103. a sliding block; 1104. an active orifice plate; 1105. a swing hole groove; 1106. a first rotating plate; 1107. an active connecting plate; 1108. the connecting slide block; 1109. limiting sliding grooves; 1110. a driven connecting plate; 1111. a second rotating plate; 1112. a second dirt scraper; 12. a first dirt scraper; 13. an anti-blocking mechanism; 1301. a working motor; 1302. rotating the screw; 1303. a lifting slide block; 1304. a sliding connecting plate; 1305. sliding guide posts; 1306. a limiting guide groove; 14. a blocking prevention plate; 15. a collection mechanism; 1501. a threaded rotating rod; 1502. a guide slide block; 1503. a guide orifice plate; 1504. a working guide post; 1505. pushing the guide groove; 1506. turning over the guide groove; 1507. limiting guide posts; 1508. a sliding guide groove; 16. a collection tank.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

In the description of the present invention, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present invention and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Referring to fig. 1-8, a low energy consumption tail water draws mark processing system, including equipment base 1, equipment base 1's top fixedly connected with intake pump 2, intake pump 2's output pipe connection has the processing cylinder 3 with equipment base 1 top fixedly connected, air line 4 is installed to processing cylinder 3's lateral wall, processing cylinder 3's inner wall fixedly connected with backwash fan 5, processing cylinder 3 keeps away from air line 4's lateral wall and is located equipment base 1's top pipe connection and has PE bucket 6, PE bucket 6 is provided with backwash water pump 7 with processing cylinder 3's junction site, PE bucket 6's outer wall is located backwash water pump 7's top and is provided with the retrieval and utilization pipeline 8 of the fixed level of practicing with processing cylinder 3 outer wall, discharge port 9 is installed on PE bucket 6's outer wall top, PE bucket 6 and processing cylinder 3's centre is located equipment base 1's top fixedly connected with drain tank 10.

Further, the inner wall of handling cylinder 3 is located backwash fan 5's top fixedly connected with and scrapes dirty mechanism 11, and scrapes dirty mechanism 11 and handle the junction of cylinder 3 and be provided with first dirty board 12 of scraping, and the bottom of handling cylinder 3 is located the top fixedly connected with of equipment base 1 and prevents stifled mechanism 13, and prevents that the inner wall sliding connection of mechanism 13 has prevents stifled board 14, and the below of PE bucket 6 is located the top fixedly connected with collection mechanism 15 of equipment base 1, and the top of collection mechanism 15 is provided with collecting vat 16.

Further, the collecting mechanism 15 is provided with two groups, and the position relation of the two groups of collecting mechanisms 15 is symmetrical about the sewage draining groove 10, the two groups of collecting mechanisms 15 are respectively positioned under the PE barrel 6 and under the treatment cylinder barrel 3, and the two groups of collecting mechanisms 15 are beneficial to realizing the centralized treatment operation of sludge of the treatment cylinder barrel 3 and the PE barrel 6 and prevent secondary pollution.

Further, the scraping mechanism 11 comprises a scraping motor 1101, a scraping screw 1102, a sliding slider 1103, a driving orifice plate 1104, a swinging orifice groove 1105, a first rotating plate 1106, a driving connecting plate 1107, a connecting slider 1108, a limiting chute 1109, a driven connecting plate 1110, a second rotating plate 1111 and a second scraping plate 1112, the outer wall of the scraping mechanism 11 is fixedly connected with the scraping motor 1101, the output end of the scraping motor 1101 is provided with the scraping screw 1102, the outer wall of the scraping screw 1102 is in threaded connection with the sliding slider 1103 which is in sliding connection with the outer wall of the scraping mechanism 11, the bottom end of the sliding slider 1103 is movably connected with the driving orifice plate 1104 which is screwed with the inner wall of the processing cylinder 3, the swinging orifice groove 1105 is formed at the connecting part of the driving orifice plate 1104 and the sliding slider 1103, one end of the driving orifice plate 1104 away from the swinging orifice groove 1105 is fixedly connected with the first rotating plate 1106 which is fixedly connected with the first scraping plate 12, the outer wall of the first rotating plate 1106 is rotatably connected with an active connecting plate 1107, one end of the active connecting plate 1107 far away from the first rotating plate 1106 is movably connected with a connecting sliding block 1108 which is in sliding connection with the inner wall of the processing cylinder 3, a connecting part of the connecting sliding block 1108 and the processing cylinder 3 is provided with a limit sliding groove 1109, one end of the connecting sliding block 1108 far away from the active connecting plate 1107 is rotatably connected with a driven connecting plate 1110, one end of the driven connecting plate 1110 far away from the connecting sliding block 1108 is rotatably connected with a second rotating plate 1111 which is rotatably connected with the inner wall of the processing cylinder 3, the connecting part of one end of the second rotating plate 1111 and the processing cylinder 3 is provided with a second dirt scraping plate 1112, by arranging a dirt scraping mechanism 11, the sliding block 1103 is beneficial to drive the active pore plate 1104 to rotate through a swinging hole groove 1105, the active pore plate 1104 rotates to drive the first rotating plate 1106 to synchronously rotate, and then the first dirt scraping plate 12 is driven to slide along the inner wall of the processing cylinder 3, the first rotating plate 1106 rotates to drive the connecting sliding block 1108 to slide along the inner wall of the limiting sliding groove 1109 through the driving connecting plate 1107, so that the connecting sliding block 1108 slides to drive the second rotating plate 1111 to rotate through the driven connecting plate 1110, the second rotating plate 1111 further rotates to drive the second dirt scraping plate 1112 to slide along the inner wall of the processing cylinder barrel 3, and the first dirt scraping plate 12 and the second dirt scraping plate 1112 slide relatively along the inner wall of the processing cylinder barrel 3, so that dirt cleaning operation on the wall of the processing cylinder barrel 3 is realized.

Further, the driving hole plate 1104 forms a rotating structure with the processing cylinder 3 through the sliding slider 1103 and the swinging hole slot 1105, the driving hole plate 1104 is perpendicular to the first rotating plate 1106, the connecting slider 1108 forms a sliding structure with the limiting chute 1109 through the first rotating plate 1106 and the driving connecting plate 1107, the second rotating plate 1111 forms a rotating structure with the processing cylinder 3 through the connecting slider 1108 and the driven connecting plate 1110, the rotating center of the second rotating plate 1111 coincides with the rotating center of the driving hole plate 1104, the sliding slider 1103 is beneficial to sliding to drive the driving hole plate 1104 to rotate through the swinging hole slot 1105, the first rotating plate 1106 rotates to drive the first dirt scraping plate 12 to slide along the inner wall of the processing cylinder 3, and meanwhile, the first rotating plate 1106 rotates to drive the connecting slider 1108 to slide along the inner wall of the limiting chute 1109 through the driving connecting plate 1107, so that the connecting slider 1108 slides to drive the second dirt scraping plate 1112 at one end of the second rotating plate 1111 through the driven connecting plate 1110, and the control operation of the movement of the first dirt scraping plate 12 and the second dirt scraping plate 1112 is realized.

Further, the anti-blocking mechanism 13 includes a working motor 1301, a rotating screw 1302, a lifting slider 1303, a sliding connecting plate 1304, sliding guide columns 1305 and a limiting guide groove 1306, the outer wall of the anti-blocking mechanism 13 is fixedly connected with the working motor 1301, the output end of the working motor 1301 is provided with the rotating screw 1302, the outer wall of the rotating screw 1302 is in threaded connection with the lifting slider 1303 which is in sliding connection with the outer wall of the anti-blocking mechanism 13, the side wall of the lifting slider 1303 is screwed with the sliding connecting plate 1304, the bottom end of the sliding connecting plate 1304 is screwed with the sliding guide columns 1305 screwed with the side wall of the anti-blocking plate 14, the connecting part of the sliding guide columns 1305 and the anti-blocking mechanism 13 is provided with the limiting guide groove 1306, the anti-blocking mechanism 13 is arranged, the lifting slider 1303 is beneficial to slide to drive the two groups of sliding guide columns 1305 to slide relatively along the two groups of limiting guide grooves 1306, and then the sliding guide columns 1305 are driven to slide relatively through the two groups of anti-blocking plates 14, and the pollution discharge operation of the processing cylinder barrel 3 is realized.

Further, two sets of sliding connecting plates 1304 are provided, and sliding guide columns 1305 form a sliding structure through the lifting slide blocks 1303 and between the sliding connecting plates 1304 and the limiting guide grooves 1306, the sliding length of the sliding guide columns 1305 is equal to the radius of the bottom end of the processing cylinder 3, which is beneficial to the sliding of the lifting slide blocks 1303, the two sets of sliding guide columns 1305 are driven by the two sets of sliding connecting plates 1304 to slide relatively along the two sets of limiting guide grooves 1306, and the control operation of the relative sliding of the two sets of sliding guide columns 1305 is realized.

Further, the collecting mechanism 15 comprises a screw thread rotating rod 1501, a guide sliding block 1502, a guide hole plate 1503, a working guide post 1504, a pushing guide groove 1505, a turnover guide groove 1506, a limit guide post 1507 and a sliding guide groove 1508, the screw thread rotating rod 1501 is arranged at the top end of the collecting mechanism 15, the guide sliding block 1502 is connected with the outer wall of the screw thread rotating rod 1501 in a threaded manner, the guide hole plate 1503 is fixedly connected with the top end of the guide sliding block 1502, the working guide post 1504 screwed with the collecting groove 16 is movably connected with the inner wall of the guide hole plate 1503, the pushing guide groove 1505 is formed in the connecting part of the working guide post 1504 and the collecting mechanism 15, one end of the pushing guide groove 1505 is located at the outer wall of the collecting mechanism 15, the turnover guide post 1506 is formed in the outer wall of the collecting mechanism 15, the side wall of the working guide post 1504 is screwed with the limit guide post 1507, the sliding guide groove 1508 is formed in the connecting part of the collecting groove 16, the guide block 1507 is slidably driven by the guide sliding guide block 1502, the guide hole plate 1503 is synchronously slid, the guide hole plate 1503 is driven to slide along the outer wall of the pushing guide post 1505, and meanwhile, the limit guide post 1507 slides along the sliding guide groove 1508, when the working guide post 1504 slides to the turnover guide post 1504, the turnover guide post 1504 slides into the working guide groove 1506, the working guide post 16 is driven by the working guide cylinder 16, and the sewage draining cylinder 16 is concentrated in the sewage draining cylinder 16, and the sewage is processed in the sewage tank 6.

Further, the collecting groove 16 forms a sliding structure through the guide hole plate 1503 and the working guide post 1504 and the pushing guide groove 1505, the pushing guide groove 1505 is parallel to the sliding guide groove 1508, the working guide post 1504 forms a sliding structure through the guide hole plate 1503 and one end of the sliding guide groove 1508 and the turning guide groove 1506, and the turning guide groove 1506 is arc-shaped, which is beneficial for the guide hole plate 1503 to slide to drive the working guide post 1504 to slide along the outer wall of the pushing guide groove 1505, meanwhile, the limit guide post 1507 slides along the sliding guide groove 1508, and when the working guide post 1504 slides into the turning guide groove 1506, the working guide post 1504 slides to drive the collecting groove 16 to turn, so as to realize the control operation of turning the collecting groove 16;

the embodiment also provides a use scheme of the tail water extraction and labeling treatment system with low energy consumption, and the method comprises the following steps of:

s1, when the device is used, firstly, sewage is injected into a treatment cylinder barrel 3 through a water inlet pump 2, then, the treatment cylinder barrel 3 is subjected to standing treatment through a backwashing fan 5 so that impurities in the sewage are layered with water, then, water in the treatment cylinder barrel 3 is injected into a PE barrel 6 through a recycling pipeline 8, then, the water in the PE barrel 6 is subjected to standing layering again, the water subjected to secondary standing is discharged through a discharge port 9, and meanwhile, the impurities in the PE barrel 6 are injected into the treatment cylinder barrel 3 through a backwashing water pump 7 to perform secondary treatment operation;

s2, then, performing a scraping operation on the inner wall of the processing cylinder barrel 3, in the scraping mechanism 11, the scraping motor 1101 works to drive the sliding block 1103 to slide along the outer wall of the scraping mechanism 11 through the scraping screw 1102, so that the sliding block 1103 slides to drive the driving hole plate 1104 to rotate through the swinging hole groove 1105, the driving hole plate 1104 rotates to drive the first rotating plate 1106 to synchronously rotate, further, the first rotating plate 1106 rotates to drive the first scraping plate 12 to slide along the inner wall of the processing cylinder barrel 3, meanwhile, the first rotating plate 1106 rotates to drive the connecting sliding block 1108 to slide along the inner wall of the limiting chute 1109 through the driving connecting plate 1107, so that the connecting sliding block 1108 slides to drive the second rotating plate 1111 to rotate through the driven connecting plate 1110, further, the second rotating plate 1111 rotates to drive the second scraping plate 1112 to slide along the inner wall of the processing cylinder barrel 3, and the first scraping plate 12 and the second scraping plate 1112 slide relatively along the inner wall of the processing cylinder barrel 3, so as to realize a cleaning operation on the wall of the processing cylinder barrel 3;

s3, then, the inside of the processing cylinder 3 is subjected to pollution discharge operation, in the anti-blocking mechanism 13, the working motor 1301 works to drive the rotating screw 1302 to rotate, so that the rotating screw 1302 rotates to drive the lifting slide block 1303 to vertically slide along the outer wall of the anti-blocking mechanism 13, the lifting slide block 1303 slides to drive the two groups of sliding guide posts 1305 to relatively slide along the two groups of limiting guide slots 1306 through the two groups of sliding connecting plates 1304, and then the sliding guide posts 1305 slide to drive the anti-blocking plates 14 to slide, and the pollution discharge operation of the processing cylinder 3 is realized through the two groups of anti-blocking plates 14 to relatively slide.

And S4, finally, carrying out centralized sewage disposal operation on the treatment cylinder barrel 3 and the PE barrel 6, respectively injecting sludge in the treatment cylinder barrel 3 and the PE barrel 6 into two groups of collecting grooves 16, then, in the collecting mechanism 15, rotating the threaded rotating rod 1501 to drive the guide sliding block 1502 to slide along the outer wall of the collecting mechanism 15 so as to enable the guide sliding block 1502 to slide to drive the guide pore plate 1503 to synchronously slide, and simultaneously, sliding the guide pore plate 1503 to drive the working guide pillar 1504 to slide along the outer wall of the pushing guide groove 1505, and simultaneously, sliding the limiting guide pillar 1507 along the sliding guide groove 1508, and when the working guide pillar 1504 slides into the overturning guide groove 1506, sliding the working guide pillar 1504 to drive the collecting groove 16 to overturn, pouring the sludge in the collecting groove 16 into the sewage disposal groove 10, thereby realizing centralized sewage disposal operation on the treatment cylinder barrel 3 and the PE barrel 6.

The working principle of the invention is as follows: when the tail water extraction and mark treatment system with low energy consumption is used, firstly, sewage is injected into a treatment cylinder barrel 3 through a water inlet pump 2, then, the treatment cylinder barrel 3 is subjected to standing treatment through a backwashing fan 5 so as to separate impurities in the sewage from water, then, water in the treatment cylinder barrel 3 is injected into a PE barrel 6 through a recycling pipeline 8, then, the water in the PE barrel 6 is subjected to standing delamination again, the water subjected to secondary standing is discharged through a discharge port 9, and meanwhile, impurities in the PE barrel 6 are injected into the treatment cylinder barrel 3 through a backwashing water pump 7 for secondary treatment operation;

then, in the scraping mechanism 11, the scraping motor 1101 drives the sliding slider 1103 to slide along the outer wall of the scraping mechanism 11 through the scraping screw 1102, so that the sliding slider 1103 slides to drive the driving hole plate 1104 to rotate through the swinging hole groove 1105, the driving hole plate 1104 rotates to drive the first rotating plate 1106 to synchronously rotate, and further the first rotating plate 1106 rotates to drive the first scraping plate 12 to slide along the inner wall of the processing cylinder 3, meanwhile, the first rotating plate 1106 rotates to drive the connecting slider 1108 to slide along the inner wall of the limiting chute 1109 through the driving connecting plate 1107, so that the connecting slider 1108 slides to drive the second rotating plate 1111 to rotate through the driven connecting plate 1110, and further the second rotating plate 1111 rotates to drive the second scraping plate 1112 to slide along the inner wall of the processing cylinder 3, and the first scraping plate 12 and the second scraping plate 1112 relatively slide along the inner wall of the processing cylinder 3, so as to realize the cleaning operation on the wall of the processing cylinder 3;

next, a blowdown operation is performed on the inside of the processing cylinder 3, in the anti-blocking mechanism 13, the working motor 1301 works to drive the rotating screw 1302 to rotate, so that the rotating screw 1302 rotates to drive the lifting slide block 1303 to vertically slide along the outer wall of the anti-blocking mechanism 13, the lifting slide block 1303 slides to drive the two sets of sliding guide posts 1305 to slide relatively along the two sets of limiting guide slots 1306 through the two sets of sliding connecting plates 1304, the sliding guide posts 1305 slide to drive the anti-blocking plates 14 to slide, and the blowdown operation on the processing cylinder 3 is realized through the two sets of anti-blocking plates 14 to slide relatively.

Finally, the processing cylinder 3 and the PE barrel 6 are subjected to centralized sewage disposal operation, sludge in the processing cylinder 3 and the PE barrel 6 is respectively injected into two groups of collecting grooves 16, then, in the collecting mechanism 15, the threaded rotating rod 1501 rotates to drive the guide sliding block 1502 to slide along the outer wall of the collecting mechanism 15, so that the guide sliding block 1502 slides to drive the guide hole plate 1503 to synchronously slide, the guide hole plate 1503 slides to drive the working guide post 1504 to slide along the outer wall of the pushing guide groove 1505, meanwhile, the limiting guide post 1507 slides along the sliding guide groove 1508, when the working guide post 1504 slides into the overturning guide groove 1506, the working guide post 1504 slides to drive the collecting grooves 16 to overturn, and the sludge in the collecting grooves 16 is poured into the sewage disposal groove 10, so that centralized sewage disposal operation on the processing cylinder 3 and the PE barrel 6 is realized.

The present invention is not limited to the above-mentioned embodiments, and any person skilled in the art, based on the technical solution of the present invention and the inventive concept thereof, can be replaced or changed within the scope of the present invention.

Claims

1. The utility model provides a low energy consumption tail water draws mark processing system, includes equipment base (1), its characterized in that: the device comprises an equipment base (1), wherein a water inlet pump (2) is fixedly connected to the top end of the equipment base (1), a processing cylinder barrel (3) fixedly connected to the top end of the equipment base (1) is connected to an output end pipeline of the water inlet pump (2), an air pipeline (4) is installed on the side wall of the processing cylinder barrel (3), a backwashing fan (5) is fixedly connected to the inner wall of the processing cylinder barrel (3), a PE barrel (6) is connected to the top end pipeline of the equipment base (1) far away from the side wall of the air pipeline (4) of the processing cylinder barrel (3), a backwashing water pump (7) is arranged at the connecting position of the PE barrel (6) and the processing cylinder barrel (3), a recycling pipeline (8) fixedly connected to the outer wall of the processing cylinder barrel (3) is arranged above the backwashing water pump (7), a discharge outlet (9) is installed at the top end of the outer wall of the PE barrel (6), and a sewage draining groove (10) is fixedly connected to the middle of the PE barrel (6) and the processing cylinder barrel (3) and the top end of the equipment base (1).

The inner wall of the treatment cylinder barrel (3) is fixedly connected with a dirt scraping mechanism (11) above the backwashing fan (5), a first dirt scraping plate (12) is arranged at the connecting part of the dirt scraping mechanism (11) and the treatment cylinder barrel (3), an anti-blocking mechanism (13) is fixedly connected with the bottom end of the treatment cylinder barrel (3) at the top end of the equipment base (1), an anti-blocking plate (14) is slidably connected with the inner wall of the anti-blocking mechanism (13), a collecting mechanism (15) is fixedly connected with the top end of the equipment base (1) below the PE barrel (6), and a collecting groove (16) is formed in the top end of the collecting mechanism (15);

the collecting mechanisms (15) are provided with two groups, the position relation of the two groups of collecting mechanisms (15) is symmetrical about the sewage draining groove (10), and the two groups of collecting mechanisms (15) are respectively positioned under the PE bucket (6) and under the treatment cylinder barrel (3);

the anti-blocking mechanism (13) comprises a working motor (1301), a rotating screw (1302), a lifting sliding block (1303), a sliding connecting plate (1304), a sliding guide column (1305) and a limiting guide groove (1306), wherein the working motor (1301) is fixedly connected to the outer wall of the anti-blocking mechanism (13), the rotating screw (1302) is installed at the output end of the working motor (1301), the lifting sliding block (1303) which is in sliding connection with the outer wall of the anti-blocking mechanism (13) is connected to the outer wall of the rotating screw (1302) in a threaded manner, the sliding connecting plate (1304) is screwed to the side wall of the lifting sliding block (1303), the sliding guide column (1305) which is screwed to the side wall of the anti-blocking plate (14) is screwed to the bottom end of the sliding connecting plate (1304), and the limiting guide groove (1306) is formed in the connecting position of the sliding guide column (1305) and the anti-blocking mechanism (13);

the sliding connecting plate (1304) is provided with two groups, a sliding structure is formed between the sliding connecting plate (1304) and the limiting guide groove (1306) through the lifting sliding block (1303), and the sliding length of the sliding guide post (1305) is equal to the radius of the bottom end of the processing cylinder barrel (3);

the dirt scraping mechanism (11) comprises a dirt scraping motor (1101), a dirt scraping screw rod (1102), a sliding block (1103), a driving pore plate (1104), a swinging pore groove (1105), a first rotating plate (1106), a driving connecting plate (1107), a connecting sliding block (1108), a limiting sliding groove (1109), a driven connecting plate (1110), a second rotating plate (1111) and a second dirt scraping plate (1112), the outer wall of the dirt scraping mechanism (11) is fixedly connected with the dirt scraping motor (1101), the output end of the dirt scraping motor (1101) is provided with the dirt scraping screw rod (1102), the outer wall of the dirt scraping screw (1102) is in threaded connection with a sliding block (1103) which is in sliding connection with the outer wall of the dirt scraping mechanism (11), the bottom end of the sliding block (1103) is movably connected with a driving orifice plate (1104) which is screwed with the inner wall of the processing cylinder barrel (3), a swinging orifice groove (1105) is formed in the connecting part of the driving orifice plate (1104) and the sliding block (1103), one end of the driving orifice plate (1104) away from the swinging orifice groove (1105) is fixedly connected with a first rotating plate (1106) which is fixedly connected with a first dirt scraping plate (12), the outer wall of the first rotating plate (1106) is screwed with a driving connecting plate (1107), one end of the driving connecting plate (1107) far away from the first rotating plate (1106) is movably connected with a connecting sliding block (1108) which is in sliding connection with the inner wall of the processing cylinder barrel (3), a limiting sliding groove (1109) is formed in the connecting position of the connecting sliding block (1108) and the processing cylinder barrel (3), one end of the connecting sliding block (1108) far away from the driving connecting plate (1107) is rotatably connected with a driven connecting plate (1110), one end of the driven connecting plate (1110) far away from the connecting sliding block (1108) is rotatably connected with a second rotating plate (1111) which is rotatably connected with the inner wall of the processing cylinder barrel (3), and a second dirt scraping plate (1112) is arranged at the connecting position of one end of the second rotating plate (1111) and the processing cylinder barrel (3);

the driving orifice plate (1104) forms a rotating structure through the sliding block (1103) and the swinging hole groove (1105) and the processing cylinder barrel (3), the driving orifice plate (1104) is vertical to the first rotating plate (1106), the connecting sliding block (1108) forms a sliding structure through the first rotating plate (1106) and the driving connecting plate (1107) and the limiting sliding groove (1109), the second rotating plate (1111) forms a rotating structure through the connecting sliding block (1108) and the driven connecting plate (1110) and the processing cylinder barrel (3), and the rotation center of the second rotating plate (1111) coincides with the rotation center of the driving orifice plate (1104).

2. The low energy tail water upgrading system according to claim 1, wherein: the collection mechanism (15) comprises a threaded rotating rod (1501), a guide sliding block (1502), a guide pore plate (1503), a working guide pillar (1504), a pushing guide groove (1505), a turnover guide groove (1506), a limit guide pillar (1507) and a sliding guide groove (1508), wherein the threaded rotating rod (1501) is arranged at the top end of the collection mechanism (15), the guide sliding block (1502) is connected with the outer wall of the threaded rotating rod (1501) in a threaded mode, the guide pore plate (1503) is fixedly connected with the top end of the guide sliding block (1502), the working guide pillar (1504) screwed with the collection groove (16) is movably connected with the inner wall of the guide pore plate (1503), the pushing guide groove (1505) is formed in the connecting position of the working guide pillar (1504) and the collection mechanism (15), the turnover guide groove (1506) is formed in the outer wall of the collection mechanism (15), the side wall of the working guide pillar (1504) is screwed with the limit guide pillar (1507), and the sliding guide groove (1508) is formed in the connecting position of the limiting guide pillar (1507) and the collection mechanism (15).

3. The low energy tail water upgrading system according to claim 2, wherein: the collecting groove (16) forms a sliding structure through a guide hole plate (1503) and a working guide pillar (1504) and a pushing guide groove (1505), the pushing guide groove (1505) is parallel to the sliding guide groove (1508), the working guide pillar (1504) forms a sliding structure through one end of the guide hole plate (1503) and the sliding guide groove (1508) and a turnover guide groove (1506), and the turnover guide groove (1506) is in an arc shape.