CN111517542A - Efficient separation sewage treatment method - Google Patents

Abstract

The invention belongs to the field of sewage treatment, and particularly relates to a high-efficiency separation sewage treatment method which mainly comprises the following treatment steps: filtration, separation, aeration, disinfection, mummification, the treatment facility that uses among the above-mentioned sewage treatment process includes the box, the box is equipped with the filter chamber, the filter chamber is equipped with the inlet tube, the filter chamber is equipped with the outlet pipe, the outlet pipe passes through axis of rotation and filter chamber intercommunication setting, the axis of rotation is equipped with the filter mantle, the filter mantle is equipped with the vibrating part, axis of rotation fixedly connected with multiunit spoiler, inlet tube and spoiler cooperation set up, the box is equipped with the blow off pipe. By adopting the efficient separation sewage treatment method, the sewage is separated to replace the precipitation work of the sewage in the treatment process, the sewage treatment efficiency is effectively improved, the resource utilization of equipment is increased, the sewage treatment cost is reduced, and the economic benefit is improved.

Description

Efficient separation sewage treatment method

Technical Field

The invention belongs to the field of environmental sewage treatment, and particularly relates to a high-efficiency separation sewage treatment method.

Background

With the rapid development of society, various environmental pollution problems are coming, wherein sewage pollution becomes one of the problems which people need to solve urgently, the treatment processes of filtering, precipitating, aerating, disinfecting, drying and the like of environmental sewage are generally required to be carried out in sequence in the sewage treatment process, but with the continuous improvement of sewage treatment technology, various sewage treatment equipment is also required to be updated and improved urgently.

In the prior art, the sewage treatment method generally leads environmental sewage into a sedimentation tank for sedimentation after primary filtration, but in the actual treatment process, the particulate matters in the sewage need to spend a large amount of time for sedimentation when carrying out sedimentation, so as to reach the discharge standard of the subsequent treatment process, greatly reduce the resource utilization of equipment, reduce the treatment efficiency of the equipment, increase the treatment cost of the sewage, and reduce the economic benefit.

Therefore, a high-efficiency separation sewage treatment method is proposed to solve the above problems.

Disclosure of Invention

The invention aims to solve the problems and provide a sewage treatment method with high separation efficiency.

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

a high-efficiency separated sewage treatment method mainly comprises the following treatment steps:

s1, filtering, namely introducing the sewage to be treated into a grating tank, and performing primary filtering work on the sewage;

s2, separating, namely introducing the sewage treated by the S1 into equipment, adjusting the water quantity, and separating and filtering fine particles in the sewage;

s3, aerating, introducing the separated and filtered sewage into an aeration tank, and purifying organisms in the sewage;

s4, disinfection, namely transferring the sewage treated in the S3 mode into a disinfection tank, and introducing a disinfectant to disinfect the sewage;

s5 drying, namely transferring the sludge treated by the S2 into a drying tank for dehydration and drying, so that subsequent resource utilization is facilitated;

above-mentioned treatment facility that uses among the sewage treatment process includes the box, the box is equipped with the filter chamber, the filter chamber is equipped with the inlet tube, the filter chamber is equipped with the outlet pipe, the outlet pipe passes through axis of rotation and filter chamber intercommunication setting, the axis of rotation is equipped with the filter mantle, the filter mantle is equipped with the vibration piece, axis of rotation fixedly connected with multiunit spoiler, inlet tube and spoiler cooperation setting, the box is equipped with the blow off pipe, the one end that the box is close to the blow off pipe is equipped with the closing plate.

In the above efficient separation sewage treatment method, the rotating shaft is rotatably connected with the box body through the supporting seat, a water outlet is arranged at one end of the rotating shaft, which is far away from the supporting seat, and the water outlet is arranged at the middle position of the filter cover.

In the above sewage treatment method with high separation efficiency, the bottom of the filter chamber is of an inverted dome-shaped structure, the support seat is rotatably connected with the sealing plate through the return spring, and the sealing plate is of an arc-shaped structure.

In the above-mentioned sewage treatment method of high-efficient separation, the vibration piece includes solid fixed ring, activity ring and impact ball, gu fixed ring's one end and axis of rotation fixed connection, gu fixed ring's the other end passes through spring assembly and activity ring swing joint, the impact ball symmetry sets up the one end that is close to the filter mantle at the activity ring, the activity ring is equipped with the dog.

In the above sewage treatment method with high separation efficiency, the flow blocking plate is obliquely arranged on the rotating shaft, the flow blocking plate is of a rectangular structure, and the width dimension of the end, close to the filter cover, of the flow blocking plate is smaller than the width dimension of the end, close to the support base, of the flow blocking plate.

In the above sewage treatment method with high separation efficiency, the rotating shaft is connected with a slip ring in a sliding manner, the slip ring is fixedly connected with a traction ball through a lead, the traction ball is made of ferromagnetic materials, one end of the filtering chamber, which is close to the filtering cover, is provided with a magnetic block, the magnetic block and the traction ball are arranged in a matching manner, and the traction ball is movably connected with the filtering cover.

Compared with the prior art, the efficient separation sewage treatment method has the advantages that:

1. by adopting the efficient separation sewage treatment method, the sewage is separated to replace the precipitation work of the sewage in the treatment process, the sewage treatment efficiency is effectively improved, the resource utilization of equipment is increased, the sewage treatment cost is reduced, and the economic benefit is improved.

2. According to the invention, the inclined spoiler is arranged, so that environmental sewage enters the filtering chamber and pushes the rotating shaft to rotate through the spoiler, further, the sewage in the box body is driven to rotate, and the particle impurities in the sewage are separated by centrifugal force generated by sewage rotation, so that the sewage filtering efficiency is improved, and the sewage treatment speed of the equipment is increased.

3. According to the invention, the water outlet is arranged above the rotating shaft, so that under the driving of the rotation of the spoiler, impurities in sewage in the filtering chamber are separated to the edge of the filtering chamber under the action of centrifugal force, and clear water is partially positioned in the middle of the filtering chamber and introduced into the next process through the water outlet, so that the filtering speed of the device is effectively increased, the treatment efficiency of equipment is improved, the sewage treatment cost is reduced, and the economic benefit is improved.

4. According to the invention, the inverted dome-shaped bottom is arranged on the filtering chamber, so that impurities in sewage are accumulated on the sealing plate through the arc-shaped edge in the separation process, when enough impurities are accumulated on the sealing plate, the impurities slide into the sewage discharge pipe under the action of gravity, and after the impurities are discharged, the sealing plate is reset under the action of the reset spring, so that the sewage and the impurities are prevented from flowing out of the filtering chamber together, the filtering effect of the device is ensured, and the resource utilization of equipment is increased.

5. According to the invention, the vibrating piece is arranged on the filter cover, so that the impact ball is driven by the stop block on the vibrating piece to perform irregular motion in the rotating process of sewage, and then the filter cover is vibrated and impacted, thereby preventing impurities in the filter chamber from blocking the filter screen of the filter cover, improving the filtering effect of the filter cover and prolonging the service life of the device.

6. According to the invention, the traction ball which is connected with the rotating shaft in a sliding manner is arranged on the rotating shaft and moves in cooperation with the magnetic block, so that the half-surface ferromagnetic material of the traction ball can perform irregular movement in the filter cover under the magnetic attraction effect of the magnetic block, the rotation drive of the rotating shaft and the water flow drive, the impact vibration work on the filter cover is further realized, the anti-blocking performance of the filter cover is improved, and the filtering effect of the device is improved.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment 1 of a high-efficiency separation sewage treatment method provided by the invention;

FIG. 2 is a schematic view showing the structure of a spoiler in an embodiment 1 of a high-efficiency separation sewage treatment method according to the present invention;

FIG. 3 is a schematic structural view of a vibrating member in example 1 of an efficient separation sewage treatment method according to the present invention;

FIG. 4 is a schematic structural diagram of an embodiment 2 of the high-efficiency separation sewage treatment method provided by the invention;

FIG. 5 is a schematic view of the connection structure of the traction ball in the filter housing in embodiment 2 of the high-efficiency separation sewage treatment method provided by the invention.

In the figure, 1 a box body, 2 filter chambers, 21 magnetic blocks, 3 water inlet pipes, 4 water outlet pipes, 5 rotating shafts, 51 supporting seats, 52 water outlets, 53 return springs, 6 filter covers, 7 vibrating pieces, 71 fixed rings, 72 movable rings, 73 impact balls, 74 spring groups, 75 stoppers, 8 spoilers, 9 sewage pipes, 10 sealing plates, 11 sliding rings, 12 leads and 13 traction balls.

Detailed Description

The following examples are for illustrative purposes only and are not intended to limit the scope of the present invention.

Example 1:

as shown in fig. 1-3, a high-efficiency separated sewage treatment method mainly comprises the following treatment steps:

s1, filtering, namely introducing the sewage to be treated into a grating tank, and performing primary filtering work on the sewage;

s2, separating, namely introducing the sewage treated by the S1 into equipment, adjusting the water quantity, and separating and filtering fine particles in the sewage;

s3, aerating, introducing the separated and filtered sewage into an aeration tank, and purifying organisms in the sewage;

s4, disinfection, namely transferring the sewage treated in the S3 mode into a disinfection tank, and introducing a disinfectant to disinfect the sewage;

s5 drying, namely transferring the sludge treated by the S2 into a drying tank for dehydration and drying, so that subsequent resource utilization is facilitated;

above-mentioned sewage treatment in-process uses treatment facility includes box 1, and box 1 is equipped with filter chamber 2, and filter chamber 2 is equipped with inlet tube 3, and filter chamber 2 is equipped with outlet pipe 4, and outlet pipe 4 passes through axis of rotation 5 and the setting of 2 intercommunications of filter chamber, and it needs to explain that, inlet tube 3's level is higher than outlet pipe 4's level, belongs to complete encapsulated situation in the filter chamber 2, guarantees that inlet tube 3's the work of intaking can extrude outlet pipe 4 with gas and liquid in the filter chamber 2 through atmospheric pressure.

Further, 5 fixedly connected with multiunit spoilers 8 of axis of rotation, inlet tube 3 and the cooperation of spoilers 8 set up, it needs to notice, 8 slopes of spoilers set up in axis of rotation 5, spoilers 8 adopt the rectangle structure, the width dimension that spoilers 8 are close to 6 one end of filter mantle is less than the width dimension that spoilers 8 are close to supporting seat 51 one end, make 3 water inlet processes of inlet tube drive sewage through the spoilers 8 of slope and rotate, 8 bottom dimensions of spoilers are greater than top dimension simultaneously and make spoilers 8 can be with the separation in the particle impurity at the maximum degree in the in-process that carries out the rotation separation, the bottom edge of filter chamber 2 is pushed impurity through centrifugal force.

Further, box 1 is equipped with blow off pipe 9, box 1 is equipped with closing plate 10 near the one end of blow off pipe 9, it is required to explain, axis of rotation 5 passes through supporting seat 51 and box 1 and rotates the connection, the dome-shaped structure of inversion is adopted to the bottom of filter chamber 2, supporting seat 51 rotates through reset spring 53 and is connected with closing plate 10, closing plate 10 adopts the arc structure, the dome-shaped bottom of inversion, make impurity in the sewage accumulate to closing plate 10 through the arc edge at the in-process that separates, pile up the impurity on closing plate 10 and go into blow off pipe 9 under the effect of gravity when enough much, closing plate 10 resets under reset spring 53's effect after impurity discharges, avoid sewage continuation outflow filter chamber 2, guarantee the filter effect of device.

Further, the rotation axis 5 is equipped with filter mantle 6, it is worth mentioning that, the filter mantle adopts round platform shape structure, and the one end that supporting seat 51 was kept away from to rotation axis 5 is equipped with delivery port 52, and delivery port 52 sets up at filter mantle 6 intermediate position, and sewage is rotatory under the drive of spoiler 8, and the impurity part in the sewage separates 2 edges in filter chamber under the effect of centrifugal force, and the clear water part is located filter chamber 2 intermediate position and lets in next process through delivery port 52, improves the separation efficiency of device.

Further, the filter mantle 6 is equipped with vibrating part 7, it is worth mentioning that, vibrating part 7 is including solid fixed ring 71, activity ring 72 and striking ball 73, gu fixed ring 71's one end and axis of rotation 5 fixed connection, gu fixed ring 71's the other end passes through spring assembly 74 and activity ring 72 swing joint, striking ball 73 symmetry sets up the one end that is close to filter mantle 6 at activity ring 72, activity ring 72 is equipped with dog 75, dog 75 is asymmetric to be set up around activity ring 72, vibrating part 7 carries out anomalous motion and then strikes filter mantle 6 along with rivers through dog 75, avoid the impurity in the filter chamber 2 to block up the filter screen of filter mantle 6, improve the filter effect of filter mantle 6, increase the life of device.

The operating principle of the present invention will now be described as follows:

sewage flows into the filtering chamber 2 from the water inlet pipe 3, water flow generates a driving force to the obliquely arranged spoiler 8 to drive the rotating shaft 5 to rotate, the pressure in the filtering chamber 2 is increased in the box body 1 after the sewage enters the filtering chamber 2, partial gas enters the water outlet pipe 4 through the water outlet 52 to be discharged under the action of air pressure, water is continuously injected until the water level of the sewage is higher than the position of the water outlet 52, the water outlet pipe 4 starts to filter the sewage, at the moment, impurity parts in the water flow are separated to the edge position of the filtering chamber 2 under the action of centrifugal force through the rotation of the spoiler 8, the impurities are accumulated on the sealing plate 10 through the inverted dome-shaped bottom, when the accumulated impurities on the sealing plate 10 are accumulated to be enough, the impurities slide into the sewage discharge pipe 9 under the action of the gravity, the sealing plate 10 is reset under the action of the reset spring 53 after, clear water part in the sewage is located filter chamber 2 intermediate position under the rotatory centrifugal action of spoiler 8, flow to next process after filtering through filter housing 6, activity ring 72 is under the effect of dog 75 this moment, carry out anomalous activity along with rivers, fixed connection's striking ball 73 and filter housing 6 are strikeed on activity ring 72, spring assembly 74 resets to activity ring 72 and makes striking ball 73 can the continuation carry out striking work, avoid the impurity in the filter chamber 2 to block up the filter screen of filter housing 6, the life of the device is prolonged.

Example 2:

as shown in fig. 4 to 5, the present embodiment is different from embodiment 1 in that:

the rotating shaft 5 is connected with a slip ring 11 in a sliding mode, the slip ring 11 rotates along the horizontal direction of the rotating shaft 5, one end, close to the rotating shaft 5, of the slip ring 11 is provided with a damping ring, so that a certain retention effect can be generated in the sliding process of the slip ring 11, the slip ring 11 is fixedly connected with a traction ball 13 through a lead 12, the half face of the traction ball 13 is made of a ferromagnetic material, one end, close to the filter chamber 6, of the filter chamber 2 is provided with a magnet 21, the magnet 21 and the traction ball 13 are arranged in a matched mode, the traction ball 13 is movably connected with the filter housing 6, it is worth mentioning that the traction ball 13 is made of a half-face ferromagnetic material, the traction ball 13 cannot be attracted by the magnet 21 all the time, when the box body 1 starts to be introduced with environmental sewage for separation work, the traction ball 13 is located at the bottom of the filter housing 6 under the action of self gravity, and when, make and pull ball 13 and 6 tops of filter mantle and strike, stir and the rotation of axis of rotation 5 to pulling ball 13 along with rivers, make and pull ball 13 and can carry out diversified irregular orbit's striking work to the top of filter mantle 6 at the regional and the non-magnetic conversion in-process of inhaling of magnetic path 21 in magnetic block's the regional and non-magnetic attraction, effectively avoid filter mantle 6 to be blockked up by the impurity in sewage in the use, improve the life of filter mantle 6, increase the separation effect of device.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (6)

1. A high-efficiency separated sewage treatment method is characterized by mainly comprising the following treatment steps:

s1, filtering, namely introducing the sewage to be treated into a grating tank, and performing primary filtering work on the sewage;

s2, separating, namely introducing the sewage treated by the S1 into equipment, adjusting the water quantity, and separating and filtering fine particles in the sewage;

s3, aerating, introducing the separated and filtered sewage into an aeration tank, and purifying organisms in the sewage;

s4, disinfection, namely transferring the sewage treated in the S3 mode into a disinfection tank, and introducing a disinfectant to disinfect the sewage;

s5 drying, namely transferring the sludge treated by the S2 into a drying tank for dehydration and drying, so that subsequent resource utilization is facilitated;

above-mentioned sewage treatment in-process uses treatment facility includes box (1), box (1) is equipped with filter chamber (2), filter chamber (2) are equipped with inlet tube (3), filter chamber (2) are equipped with outlet pipe (4), outlet pipe (4) set up through axis of rotation (5) and filter chamber (2) intercommunication, axis of rotation (5) are equipped with filter mantle (6), filter mantle (6) are equipped with vibrating piece (7), axis of rotation (5) fixedly connected with multiunit spoiler (8), inlet tube (3) and spoiler (8) cooperation set up, box (1) are equipped with blow off pipe (9), the one end that box (1) is close to blow off pipe (9) is equipped with closing plate (10).

2. The sewage treatment method with high separation efficiency according to the claim 1, wherein the rotating shaft (5) is rotatably connected with the box body (1) through a supporting seat (51), one end of the rotating shaft (5) far away from the supporting seat (51) is provided with a water outlet (52), and the water outlet (52) is arranged in the middle of the filter cover (6).

3. A high efficiency separation sewage treatment method according to claim 2, wherein the bottom of the filtering chamber (2) is of an inverted dome-shaped structure, the supporting base (51) is rotatably connected with a sealing plate (10) through a return spring (53), and the sealing plate (10) is of an arc-shaped structure.

4. The sewage treatment method with high separation efficiency according to claim 3, wherein the vibrating member (7) comprises a fixed ring (71), a movable ring (72) and an impact ball (73), one end of the fixed ring (71) is fixedly connected with the rotating shaft (5), the other end of the fixed ring (71) is movably connected with the movable ring (72) through a spring group (74), the impact ball (73) is symmetrically arranged at one end of the movable ring (72) close to the filter cover (6), and the movable ring (72) is provided with a stop block (75).

5. The sewage treatment method with high efficiency separation according to claim 4, wherein the flow blocking plate (8) is obliquely arranged on the rotating shaft (5), the flow blocking plate (8) is of a rectangular structure, and the width dimension of the end of the flow blocking plate (8) close to the filter cover (6) is smaller than the width dimension of the end of the flow blocking plate (8) close to the supporting seat (51).

6. The sewage treatment method with high efficiency separation as claimed in claim 5, wherein the rotating shaft (5) is slidably connected with a slip ring (11), the slip ring (11) is fixedly connected with a traction ball (13) through a lead (12), the half surface of the traction ball (13) is made of ferromagnetic material, one end of the filtering chamber (2) close to the filtering cover (6) is provided with a magnet (21), the magnet (61) and the traction ball (13) are arranged in a matching way, and the traction ball (13) is movably connected with the filtering cover (6).

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