CN114249498B - Village and town sewage treatment equipment and treatment method thereof - Google Patents

Abstract

The invention belongs to the field of village sewage treatment, and particularly relates to village sewage treatment equipment and a village sewage treatment method.

Description

Village and town sewage treatment equipment and treatment method thereof

Technical Field

The invention belongs to the field of village and town sewage treatment, and particularly relates to village and town sewage treatment equipment and a village and town sewage treatment method.

Background

The environmental protection of villages and towns is ignored for a long time, the living water pollution of villages and towns is more serious, and along with the continuous promotion of the construction of new villages and towns, the problem of the water pollution of villages and towns is increasingly outstanding, not only seriously influencing and restricting the development of agriculture, the income increase of peasants and the modern process of villages and towns, but also generating great negative influence on the living environment, economy and social development of vast villages and towns areas, and becoming an important restriction factor of the construction of the new villages and towns.

The current village sewage treatment equipment has the following problems;

(1) the floating oil on the surface of the sewage is difficult to collect and recycle, and the sewage treatment effect is affected;

(2) the filtering device filters the sludge and the garbage, and cannot be cleaned in time, so that the filtering device is blocked and cannot be used normally due to the influence of the filtering;

(3) the chemical neutralization can not be reasonably performed by controlling the amount of sewage entering;

(4) the microorganism plate can not be circularly replaced, and the sewage treatment activity of microorganisms is maintained.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides village and town sewage treatment equipment and a village and town sewage treatment method, which can collect and recycle floating oil in time, stir in chemistry and then compress, solidify and store the floating oil; the filter board and the activated carbon are cleaned and repaired, and the damaged filter board and the damaged activated carbon are conveniently replaced in time, so that the sewage treatment capacity is maintained; controlling the amount of sewage entering and fully stirring for chemical neutralization, and improving the effect of chemical neutralization; the sewage is subjected to microbial purification, and the microbial plates are recycled, so that the sewage treatment capacity of each microbial plate can be kept the same, and the service life is prolonged.

The aim of the invention can be achieved by the following technical scheme: a village sewage treatment device and a village sewage treatment method thereof comprise the following steps:

s1, placing and fixing, namely placing a sewage treatment box at a sewage inflow position for fixing;

s2, collecting floating oil, namely absorbing and collecting the floating oil on the surface of the sewage through the buoyancy of the sewage;

s3: floating oil treatment, namely sterilizing, neutralizing, stirring, compressing, drying and storing the floating oil;

s4: filtering sundries, filtering and collecting the sundries, and cleaning the filter plate in time;

s5: storing sundries, compressing and storing the sundries, squeezing out redundant moisture in the sundries, and airing;

s6: filtering by using activated carbon, and filtering the sewage by using the activated carbon to remove peculiar smell in the water;

s7, chemical neutralization, namely controlling the entering amount of sewage, and removing nitrogen and phosphorus in the sewage by performing chemical neutralization;

s8: microorganism treatment, wherein sewage is treated by microorganisms to purify the sewage;

s9: detecting, namely detecting the treated sewage;

the steps S1-S9 are completed by adopting village and town sewage treatment equipment, the village and town sewage treatment equipment comprises a sewage treatment box, one end inside the sewage treatment box is provided with a floating oil treatment component for collecting, neutralizing, stirring and compressing, storing and treating floating oil, the rear side of the floating oil treatment component is provided with a sundry treatment component for filtering, collecting and filtering the sundries, the sundry treatment component is provided with a sundry storage component above for compressing, storing and airing the sundries, the sundry treatment component is provided with a chemical neutralization component for controlling the entering amount of the sewage and performing chemical neutralization reaction to remove nitrogen and phosphorus in the sewage, the chemical neutralization component is provided with a microorganism treatment component for performing microorganism purification on the sewage, the chemical neutralization component is provided with a detection component for detecting the treated sewage, the sewage treatment box is internally provided with a water inlet towards the direction of the floating oil treatment component, and two fixed telescopic plates are fixedly arranged at two ends of the periphery of the sewage treatment box.

Preferably, the floating oil treatment component comprises a recovery sliding block, the recovery sliding block is positioned in the sewage treatment box and is connected with the water inlet in a sliding manner, the recovery sliding block is fixedly arranged at the lower end of the recovery sliding block, a recovery cavity is arranged in the recovery sliding block, a plurality of inlet holes are formed above the recovery cavity and are connected with the outside of the recovery sliding block, and a suction rod is arranged in the recovery sliding block in a sliding manner.

Preferably, the recovery sliding block is kept away from water inlet one side and has set firmly first motor in sewage treatment case, first motor upper end has set firmly first linkage post, first linkage post rotates in sewage treatment case and connects, be equipped with first centrifugal chamber in the first linkage post, first linkage post both sides are equipped with disinfection solution in sewage treatment case, disinfection solution is connected with first centrifugal chamber, first centrifugal chamber top has set firmly two discharge holes on first linkage post, first linkage post periphery is gone up to slide and is equipped with two first sliding blocks, two first sliding blocks keep away from first linkage post direction and slide and be equipped with two first movable plates, be equipped with the pressure chamber in the first movable plate, pressure intracavity seal slide is equipped with the pressure set, the pressure set comprises clamp plate and sliding plate, the connecting rod, the spring, the pressure chamber below is equipped with alkaline powder storage chamber in sewage treatment case, alkaline powder storage chamber is connected with the pressure chamber, alkaline powder storage chamber is connected with first centrifugal chamber, first linkage post keeps away from sewage treatment motor one side and has set firmly two discharge holes in the motor periphery, first linkage post periphery is gone up to slide and is equipped with two first movable plates, first linkage post, the second linkage is connected with the second linkage is equipped with the second linkage post, the second linkage is kept away from the inside the second linkage chamber, drying chamber is equipped with the second linkage is connected with the second linkage post, drying chamber, the drying chamber is inside is equipped with alkaline powder storage chamber.

Preferably, debris processing unit includes the third motor, the third motor is located the oil slick storage chamber and keeps away from ejection of compact Kong Fangxiang, the third motor has set firmly the third linkage post to oil slick storage chamber one end, set firmly the rolling disc on the third linkage post periphery, the rolling disc is inside to oil slick storage chamber direction be equipped with a plurality of filter chambers, the filter chamber is kept away from oil slick storage chamber direction and is equipped with a plurality of active carbon chamber in the rolling disc, be equipped with a plurality of filter in sliding motion in the rolling disc between filter chamber and the active carbon chamber, the filter has set firmly the connecting block to third linkage post direction, connecting block both sides and third linkage post sliding connection are equipped with two fixture blocks, the sliding of filter chamber is equipped with the clearance piece, the clearance piece is slided to the filter direction and is equipped with the brush piece, the brush piece is kept away from the filter direction and has set firmly the air pump in the clearance piece, air pump and brush piece internal connection.

Preferably, the activated carbon cavity is kept away from the rotation of third linkage post direction and is equipped with a plurality of reload rotor plates, and the filter is kept away from third linkage post direction and is equipped with the trading board mouth, and the third motor top is fixed firmly the fixed block on sewage treatment case, and the inside top of fixed block is equipped with the activated carbon storage chamber, and the fan has been set firmly in the fixed block to activated carbon storage chamber below, is connected between filter chamber and the activated carbon cavity.

Preferably, the sundry storage part comprises a sundry storage box, the sundry storage box is positioned at the upper end of the sewage treatment box above the floating oil storage cavity, a plurality of extrusion filter plates are arranged in the sundry storage box in a sealing sliding manner, two storage rotating shafts are arranged at the upper end inside the sundry storage box, a linkage shaft is rotatably arranged at one end of the sundry storage box in the direction of the fixed block, a pull rope is connected between the linkage shaft and the two storage rotating shafts as well as between the plurality of extrusion filter plates, and an inlet valve and an outlet valve are connected between the interior of the sundry storage box and the active carbon cavity.

Preferably, the chemical neutralization component comprises a rotating shaft, the rotating shaft is located in the direction that the third motor is far away from the third linkage column, the rotating shaft is rotationally connected in the sewage treatment tank, a rotating wheel is fixedly arranged on the outer circumferential surface of the rotating shaft, four fourth motors are fixedly arranged in the circumferential direction of the rotating wheel, four fourth linkage columns are fixedly arranged in the direction that the fourth motors are far away from the rotating shaft, two stirring rods are slidably arranged on two sides of each fourth linkage column, a second centrifugal cavity is arranged in each fourth linkage column, a chemical solution storage cavity is arranged in the rotating wheel and connected with the corresponding second centrifugal cavity, and a plurality of outlet valves are arranged in the direction that the second centrifugal cavity is far away from the fourth motors and are externally connected with the fourth linkage columns.

Preferably, the microorganism treatment component comprises a fifth motor, the fifth motor is fixed in the direction that the rotating shaft is far away from the third motor, a fifth linkage column is fixedly arranged at one end of the fifth motor in the direction of the rotating shaft, the fifth linkage column is rotationally connected in the sewage treatment tank, a filtering rotary disc is fixedly arranged on the outer circumferential surface of the fifth linkage column, the filtering rotary disc is rotationally connected in the sewage treatment tank, a plurality of microorganism storage plates are arranged in the filtering rotary disc, a sliding magnetic block is fixedly arranged at one end of the microorganism storage plate in the direction of the fifth linkage column, the sliding magnetic block slides in the fifth linkage column, the sliding magnetic block is far away from the microorganism storage plate, a magnetic conveying mechanism is rotationally arranged in the fifth linkage column in the direction of the fifth motor, a plurality of replacement rotary plates are rotationally arranged in the circumferential direction of the filtering rotary disc, a clamping group is rotationally arranged in the sewage treatment tank above the filtering rotary disc, the clamping group consists of a sliding rod, the rotating disc and a clamping block, four purification cavities are arranged in the filtering rotary disc, and three microorganism storage plates are arranged in the purification cavities.

Preferably, the detection component comprises a detection group, the detection group is located in the direction that the fifth motor is far away from the fifth linkage column, the detection group is rotationally connected in the sewage treatment box and consists of a detection rotating shaft, a rotating rod and a rotating column, the detection group is detected with the treated sewage, the detection group is driven to rotate by the detected sewage, the sewage detection does not stop rotating by the detection group, a sliding plate is slidably arranged in the sewage treatment box in the direction that the detection group is far away from the fifth motor, and the sliding plate is in linkage connection with the detection group.

The beneficial effects are that:

1. through oil slick treatment component and debris treatment component setting, in time collect recovery and carry out the stirring in chemistry to oil slick, then compress solidification storage, be favorable to the recovery storage to oil slick, reduce the influence of oil slick to sewage treatment.

2. Through debris processing part and debris storage part setting, filter the debris and block and in time compress the storage to debris, clear up restoration and in time change the filter and the activated carbon of damage to filter and activated carbon, be favorable to keeping sewage treatment's ability.

3. Through chemical neutralization part setting, the volume of control sewage entering and carry out chemical neutralization stirring fully, improve the effect of chemical neutralization.

4. The arrangement of the microorganism treatment component is improved, the microorganism purification is carried out on the sewage, and the microorganism plates are circularly replaced, so that the same treatment capacity of each microorganism plate on the sewage can be maintained, and the service life is prolonged.

Drawings

The invention is further explained below with reference to the drawings and examples:

FIG. 1 is a flow chart of the method of the present invention.

FIG. 2 is a schematic view of an isometric structure of the present invention.

Fig. 3 is a schematic top view of the present invention.

FIG. 4 is a schematic cross-sectional view of the structure at A-A in FIG. 3.

Fig. 5 is a partially enlarged structural schematic view at B in fig. 4.

Fig. 6 is a partially enlarged structural schematic view at C in fig. 4.

Fig. 7 is a partially enlarged structural schematic diagram at D in fig. 4.

Fig. 8 is a schematic diagram of the structure of the partial enlarged view at E in fig. 4.

Fig. 9 is a schematic diagram of a partial enlarged view at F in fig. 4.

Fig. 10 is a partially enlarged view of the structure of fig. 4 at G.

In the drawing the view of the figure, sewage treatment tank 10, oil slick treatment part 11, sundry treatment part 12, sundry storage part 13, chemical neutralization part 14, microorganism treatment part 15, detection part 16, fixed expansion plate 17, water inlet 18, recovery slide block 19, recovery float block 20, recovery chamber 21, suction rod 22, first motor 23, first linkage column 24, first centrifugal chamber 25, disinfectant solution 26, first slide block 27, first moving plate 28, pressing chamber 29, pressing group 30, pressing plate 31, alkaline powder storage chamber 32, discharge hole 33, second motor 34, second linkage column 35, heating chamber 36, holding plate 37, drying chamber 38, oil slick storage chamber 39, third motor 40, third linkage column 41, rotating disc 42, filter chamber 43 the activated carbon chamber 44, the filter plate 45, the connection block 46, the fixture block 47, the cleaning block 48, the brush block 49, the air pump 50, the in-out valve 51, the reloading rotating plate 52, the reloading port 53, the sundries storage box 54, the squeezing filter plate 55, the storage rotating shaft 56, the pull rope 57, the linkage shaft 58, the fixed block 59, the activated carbon storage chamber 60, the fan 61, the rotating shaft 62, the rotating wheel 63, the fourth motor 64, the fourth linkage post 65, the stirring rod 66, the second centrifugal chamber 67, the chemical solution storage chamber 68, the out-out valve 69, the fifth motor 70, the filter rotating disc 71, the microorganism storage plate 72, the sliding magnetic block 73, the magnetic transfer mechanism 74, the spring block 75, the reloading rotating plate 76, the reloading port 77, the clamping group 78, the fifth linkage post 79, the detection group 80, and the slide plate 81.

Detailed Description

The following are specific embodiments of the present invention and the technical solutions of the present invention will be further described with reference to the accompanying drawings, but the present invention is not limited to these embodiments.

Referring to fig. 1 to 10, a village sewage treatment apparatus and a treatment method thereof, comprising the steps of:

s1, placing and fixing, namely placing a sewage treatment box at a sewage inflow position for fixing;

s2, collecting floating oil, namely absorbing and collecting the floating oil on the surface of the sewage through the buoyancy of the sewage;

s3: floating oil treatment, namely sterilizing, neutralizing, stirring, compressing, drying and storing the floating oil;

s4: filtering sundries, filtering and collecting the sundries, and cleaning the filter plate in time;

s5: storing sundries, compressing and storing the sundries, squeezing out redundant moisture in the sundries, and airing;

s6: filtering by using activated carbon, and filtering the sewage by using the activated carbon to remove peculiar smell in the water;

s7, chemical neutralization, namely controlling the entering amount of sewage, and removing nitrogen and phosphorus in the sewage by performing chemical neutralization;

s8: microorganism treatment, wherein sewage is treated by microorganisms to purify the sewage;

s9: detecting, namely detecting the treated sewage;

steps S1-S9 are completed by adopting village and town sewage treatment equipment, the village and town sewage treatment equipment comprises a sewage treatment box 10, one end inside the sewage treatment box 10 is provided with a floating oil treatment part 11 for collecting, neutralizing, stirring and compressing, storing and treating floating oil, the rear side of the floating oil treatment part 11 is provided with a sundry treatment part 12 for filtering, collecting and filtering sundries, a sundry storage part 13 for compressing, storing and airing sundries is arranged above the sundry treatment part 12, the sundry treatment part 12 is provided with a chemical neutralization part 14 for controlling the entering amount of the sewage and removing nitrogen and phosphorus in the sewage in the direction away from the floating oil treatment part 11, the chemical neutralization part 14 is provided with a microorganism treatment part 15 for purifying the sewage in the direction away from the sundry treatment part 12, the microorganism treatment part 15 is provided with a detection part 16 for detecting the treated sewage, the inside of the sewage treatment box 10 is provided with a water inlet 18 in the direction away from the chemical neutralization part 14, and two fixed telescopic plates 17 are fixedly arranged at two peripheral ends of the sewage treatment box 10.

Further, referring to fig. 1 to 10, the oil slick treatment component 11 includes a recovery sliding block 19, the recovery sliding block 19 is located in the sewage treatment tank 10 and is connected to the water inlet 18 in a sliding manner, the recovery sliding block 19 is slidably connected in the sewage treatment tank 10, a recovery floating block 20 is fixedly arranged at the lower end of the recovery sliding block 19, a recovery cavity 21 is arranged in the recovery floating block 20, a plurality of inlet holes are formed above the recovery cavity 21 and connected to the outside of the recovery floating block 20, and a suction rod 22 is slidably arranged in the recovery sliding block 19.

Further, referring to FIGS. 1-10, a first motor 23 is fixedly arranged in the sewage treatment tank 10 at one side of the recovery sliding block 19 far from the water inlet 18, a first linkage column 24 is fixedly arranged at the upper end of the first motor 23, the first linkage column 24 is rotationally connected in the sewage treatment tank 10, a first centrifugal cavity 25 is arranged in the first linkage column 24, disinfection solution 26 is arranged at two sides of the first linkage column 24 in the sewage treatment tank 10, the disinfection solution 26 is connected with the first centrifugal cavity 25, two discharge holes 33 are fixedly arranged on the first linkage column 24 above the first centrifugal cavity 25, two first sliding blocks 27 are slidably arranged on the circumferential surface of the first linkage column 24, two first moving plates 28 are slidably arranged at the directions of the two first sliding blocks 27 far from the first linkage column 24, a pressing cavity 29 is arranged in the first moving plates 28, a pressing group 30 is slidably arranged in the pressing cavity 29 in a sealing manner, the pressing group 30 is composed of a pressing plate, a sliding plate, a connecting rod and a spring, an alkaline powder storage cavity 32 is arranged in the sewage treatment tank 10 below the pressing cavity 29, the alkaline powder storage cavity 32 is connected with the pressing cavity 29, the pressing plate 31 is arranged in the alkaline powder storage cavity 32 in a sealing sliding manner, the alkaline powder storage cavity 32 is connected with the first centrifugal cavity 25, a second motor 34 is fixedly arranged in the sewage treatment tank 10 on one side, far away from the recovery sliding block 19, of the first linkage column 24, a second linkage column 35 is fixedly arranged on the upper end of the second motor 34, the second linkage column 35 is rotationally connected in the sewage treatment tank 10, a clamping plate 37 is fixedly arranged in the circumferential direction of the second linkage column 35, a heating cavity 36 is arranged in the second linkage column 35, a drying cavity 38 is arranged in the clamping plate 37 and is connected with the heating cavity 36, and a floating oil storage cavity 39 is arranged in the sewage treatment tank 10 on one side, far away from the discharge hole 33.

Further, referring to fig. 1 to 10, the sundry handling unit 12 includes a third motor 40, the third motor 40 is located in a direction that the oil slick storage cavity 39 is far away from the discharge hole 33, a third linkage column 41 is fixedly arranged at one end of the oil slick storage cavity 39, a rotating disc 42 is fixedly arranged on the circumferential surface of the third linkage column 41, a plurality of filter cavities 43 are arranged in the rotating disc 42 towards the oil slick storage cavity 39, a plurality of activated carbon cavities 44 are arranged in the rotating disc 42 in the direction that the filter cavities 43 are far away from the oil slick storage cavity 39, a plurality of filter plates 45 are arranged between the filter cavities 43 and the activated carbon cavities 44 in a sliding manner in the rotating disc 42, a connecting block 46 is fixedly arranged in the direction of the third linkage column 41 in the filter plates 45, two clamping blocks 47 are slidably connected with the third linkage column 41 at two sides of the connecting block 46, a cleaning block 48 is slidably arranged in the filter cavities 43, a brush block 49 is slidably arranged in the direction that the brush block 49 is far away from the filter plates 45, an air pump 50 is fixedly arranged in the filter cavity 48 in the direction that the filter blocks 49 is far away from the filter plates 45, and the brush block 49 is internally connected with the brush block 49.

Further, referring to fig. 1 to 10, a plurality of material-changing rotating plates 52 are rotatably arranged in the direction of the activated carbon cavity 44 away from the third linkage column 41, a plate-changing opening 53 is arranged in the direction of the filter plate 45 away from the third linkage column 41, a fixed block 59 is fixedly arranged above the third motor 40 on the upper end of the sewage treatment tank 10, an activated carbon storage cavity 60 is arranged above the inside of the fixed block 59, a fan 61 is fixedly arranged in the fixed block 59 below the activated carbon storage cavity 60, and the filter cavity 43 is connected with the activated carbon cavity 44.

Further, referring to fig. 1 to 10, the sundry storage part 13 includes a sundry storage box 54, the sundry storage box 54 is located at the upper end of the sewage treatment box 10 above the floating oil storage cavity 39, a plurality of extrusion filter plates 55 are hermetically and slidably arranged in the sundry storage box 54, two storage rotating shafts 56 are arranged at the upper end inside the sundry storage box 54, a linkage shaft 58 is rotatably arranged at one end of the sundry storage box 54 in the direction of a fixed block 59, pull ropes 57 are connected between the linkage shaft 58 and the two storage rotating shafts 56 and between the plurality of extrusion filter plates 55, and an inlet and outlet valve 51 is connected between the interior of the sundry storage box 54 and the activated carbon cavity 44.

Further, referring to fig. 1 to 10, the chemical neutralization unit 14 includes a rotating shaft 62, the rotating shaft 62 is located in a direction that the third motor 40 is far away from the third linkage column 41, the rotating shaft 62 is rotationally connected in the sewage treatment tank 10, a rotating wheel 63 is fixedly arranged on an outer circumferential surface of the rotating shaft 62, four fourth motors 64 are fixedly arranged in a circumferential direction of the rotating wheel 63, four fourth linkage columns 65 are fixedly arranged in a direction that the four fourth motors 64 are far away from the rotating shaft 62, two stirring rods 66 are slidably arranged on two sides of the fourth linkage columns 65, a second centrifugal cavity 67 is arranged in the fourth linkage columns 65, a chemical solution storage cavity 68 is arranged in the rotating wheel 63, the chemical solution storage cavity 68 is connected with the second centrifugal cavity 67, and a plurality of outlet valves 69 are arranged in the direction that the second centrifugal cavity 67 is far away from the fourth motors 64 and is externally connected with the fourth linkage columns 65.

Further, referring to fig. 1 to 10, the microorganism treatment member 15 includes a fifth motor 70, the fifth motor 70 is fixed at one end of the rotating shaft 62 in a direction away from the third motor 40, a fifth linkage post 79 is fixed at one end of the fifth motor 70 in a direction away from the rotating shaft 62, the fifth linkage post 79 is rotatably connected in the sewage treatment tank 10, a filter rotating disc 71 is fixed on an outer circumferential surface of the fifth linkage post 79, the filter rotating disc 71 is rotatably connected in the sewage treatment tank 10, a plurality of microorganism storage plates 72 are arranged in the filter rotating disc 71, a sliding magnetic block 73 is fixed at one end of the microorganism storage plate 72 in the direction away from the fifth linkage post 79, the sliding magnetic block 73 slides in the fifth linkage post 79 in a direction away from the microorganism storage plate 72, a magnetic transfer mechanism 74 is rotatably arranged in the fifth linkage post 79 in a direction away from the microorganism storage plate 72, a spring block 75 is rotatably arranged in the fifth linkage post 79, a plurality of replacement rotating plates 76 are rotatably arranged on an outer circumferential surface of the filter rotating disc 71, a replacement port 77 is rotatably arranged in the sewage treatment tank 71, a filter rotating disc 71 is rotatably arranged in a circumferential direction, a filter rotating disc 71 is rotatably arranged in a fourth rotating disc 78, a filter rotating disc 78 is rotatably arranged in a fourth clamping cavity, and a filter clamping cavity is formed by a rotating disc 78, and a filter clamping cavity is rotatably arranged in the filter rotating disc 72, and a group is rotatably clamped in a rotating disc, and a rotating cavity is inside a filter, and a filter cavity is inside a filter.

Further, referring to fig. 1 to 10, the detecting unit 16 includes a detecting unit 80, the detecting unit 80 is located in a direction away from the fifth moving column 79 by the fifth motor 70, the detecting unit 80 is rotatably connected in the sewage treatment tank 10, the detecting unit 80 is composed of a detecting rotating shaft, a rotating rod and a rotating column, the detecting unit 80 detects the treated sewage, the detecting unit 80 is driven to rotate by the sewage passing through the detecting unit 80, the sewage detecting unit 80 does not stop rotating, and a sliding plate 81 is slidably provided in the sewage treatment tank 10 in a direction away from the fifth motor 70 by the detecting unit 80, and the sliding plate 81 is connected with the detecting unit 80 in a linkage manner.

Principle of operation

S1, placing and fixing, namely placing the sewage treatment box 10 at a sewage inflow position, and fixing the telescopic plate 17 in soil in a telescopic manner to fix the sewage treatment box 10.

S2, collecting floating oil, wherein sewage enters the sewage treatment tank 10 through the water inlet 18, the recovery floating block 20 drives the recovery sliding block 19 to slide up and down in the sewage treatment tank 10 through the sewage level, the floating oil in the sewage enters the recovery cavity 21 through the hole on the recovery floating block 20, and the suction rod 22 slides in the recovery sliding block 19 to absorb the floating oil in the recovery cavity 21 upwards to the upper end of the pressing group 30.

S3: the floating oil treatment, the pressing group 30 is pressed downwards by the gravity of the floating oil, the pressing plate in the pressing group 30 is pressed downwards in the pressing cavity 29 in a sealing way, the air in the pressing cavity 29 is pressed into the alkaline powder storage cavity 32, the pressing plate 31 slides downwards in the sealing way in the alkaline powder storage cavity 32, the alkaline powder in the alkaline powder storage cavity 32 is pressed into the first centrifugal cavity 25 by the sliding way of the pressing plate 31, the sterilizing solution in the sterilizing solution 26 enters the first centrifugal cavity 25, the first motor 23 is started to drive the first linkage column 24 to rotate, the first linkage column 24 rotates to drive the alkaline powder in the first centrifugal cavity 25 and the sterilizing solution to be stirred and mixed, the first centrifugal cavity 25 rotates to drive the mixed solution to move upwards in an inclined way, and the mixed solution is uniformly sprayed into the floating oil through the discharging hole 33; the first linkage column 24 rotates to drive the first sliding block 27 to slide in the first linkage column 24, the first sliding block 27 slides to drive the first moving plate 28 to move upwards, and the first moving plate 28 drives the press group 30 to move upwards to mix and compress floating oil; the heating cavity 36 heats and enters the drying cavity 38 with hot gas, the hot gas dries and solidifies the floating oil in the drying cavity 38 through the clamping plate 37, the second motor 34 starts to rotate through the second linkage post 35 to drive the clamping plate 37 to rotate, and the clamping plate 37 rotates to rotate the solidified floating oil to enter the floating oil storage cavity 39 for storage.

S4: sundries are filtered, the sewage enters the filter cavity 43, sundries in the sewage are filtered and blocked by the filter plate 45, too many sundries filtered in the filter cavity 43 affect the filtering effect of the filter plate 45 on the sewage, and the activity of the activated carbon in the activated carbon cavity 44 is reduced after a certain amount of sewage passes through; the third motor 40 is started to drive the rotating disc 42 to rotate through the third linkage column 41, the rotating disc 42 rotates to drive the filter cavity 43 with sundries to rotate, the upper part of the third linkage column 41 is driven to enable the inlet and outlet valve 51 to be connected with the interior of the sundries storage box 54, and the filter plates 45 in the other filter cavities 43 continue to filter sewage.

S5: the sundries are stored, the air pump 50 is started, the air pump 50 is downwards used for air suction towards the direction of the brush block 49, the cleaning block 48 is downwards used for air suction through the air pump 50, upwards moves in the filter cavity 43 to push sundries to enter the sundries storage box 54 through the inlet and outlet valve 51, the cleaning block 48 slides in the filter cavity 43 to drive the brush block 49 to slide, the brush block 49 is matched with the air pump 50 in a sliding mode to suck air to clean the filter plates 45, the filter plates 45 are prevented from being blocked, the linkage shaft 58 rotates to drive the storage rotating shaft 56 to rotate through the pull rope 57, the extrusion filter plates 55 are driven to slide upwards in a sealing mode in the sundries storage box 54, the extrusion filter plates 55 slide to extrude and compress the sundries for storage, and redundant moisture is extruded.

S6: activated carbon is filtered, sewage enters the activated carbon cavity 44 through the filter plate 45, the sewage is filtered through the activated carbon, peculiar smell in the water is removed, the activated carbon is treated by a certain amount until the activity of the sewage is slowly reduced, the activated carbon is air-dried by the fan 61 to restore the activity, and the sundries in the sundry storage box 54 are also air-dried by the wind generated by the fan 61 to reduce the moisture; when the filter plate 45 is used for a period of time and needs to be replaced, a worker extrudes the filter plate 45 through the plate replacing opening 53, so that the connecting block 46 slides towards the third linkage column 41 to be clamped out from the clamping block 47, the filter plate 45 is taken out for replacement, the filter plate 45 is placed into the rotating disc 42 through the plate replacing opening 53, and clamping is carried out through the clamping block 47; the activated carbon in the activated carbon chamber 44 is replaced at one end of use time, and the activated carbon in the activated carbon chamber 44 is taken out and the activated carbon in the activated carbon storage chamber 60 is placed in the activated carbon chamber 44 for replacement by rotating the reloading rotating plate 52 on the rotating disc 42.

And S7, chemical neutralization, namely enabling sewage to enter the chemical neutralization component 14, enabling the rotating shaft 62 to rotate to drive the rotating wheel 63 to rotate, enabling the rotating wheel 63 to rotate to drive the fourth linkage column 65 to rotate, enabling the fourth linkage column 65 to rotate to control the sewage amount entering the chemical neutralization component 14, enabling the chemical solution in the chemical solution storage cavity 68 to enter the second centrifugal cavity 67, enabling the fourth motor 64 to start to drive the chemical solution in the second centrifugal cavity 67 to uniformly spray into the sewage through the outlet valve 69, and enabling the stirring rod 66 to rotate to stir and move to perform chemical neutralization in cooperation with the rotation of the fourth linkage column 65, so that nitrogen and phosphorus in the sewage are removed.

S8: the method comprises the steps that after microorganism treatment, neutralized sewage enters into a filtering rotating disc 71 and is subjected to microorganism purification through three microorganism storage plates 72, a fifth motor 70 is started to drive the filtering rotating disc 71 to rotate through a fifth linkage column 79, the filtering rotating disc 71 rotates to replace a purifying cavity, when the purifying cavity rotates to the upper side of the fifth motor 70, a replacing rotating plate 76 rotates to be opened, the microorganism storage plates 72 in the direction of the fifth motor 70 are pushed out of the filtering rotating disc 71 through the pushing force of stretching and popping up of elastic blocks 75 in cooperation with the centrifugal force of the rotation of the filtering rotating disc 71, a clamping group 78 slides in a sewage treatment tank 10 to clamp the microorganism storage plates 72, a magnetic transfer mechanism 74 is started to drive the microorganism storage plates 72 to move towards the direction of the fifth motor 70 through a sliding magnetic block 73, the middle microorganism storage plates 72 move to the upper end of the elastic blocks 75, the clamping group 78 slides in the sewage treatment tank 10 to drive the microorganism storage plates 72 to be moved to the upper side of a replacing opening 77, the microorganism storage plates 72 enter into the filtering rotating disc 71 through the opening 77, and the microorganism storage plates 72 can be stored in the three microorganism storage plates 72 through the magnetic transfer mechanism.

S9: the detection is carried out in the sewage after purification enters into the detection group 80, the detection group 80 is driven to rotate by the sewage passing through the detection, the sewage detection does not stop rotating through the detection group 80, the detection group 80 rotates and links to drive the sliding plate 81 to move upwards, and the sliding plate 81 slides downwards in the sewage treatment tank 10 to block the sewage from going out when the detection group 80 stops rotating, so that the equipment in the sewage treatment tank 10 is required to be maintained in time when the equipment is in a problem.

The foregoing description is only illustrative of the present invention and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes using the descriptions and the drawings of the present invention or directly or indirectly applied to other related technical fields are included in the scope of the invention.

Claims (6)

1. A method for treating village sewage treatment equipment, which is characterized by comprising the following steps:

s1, placing and fixing, namely placing a sewage treatment box at a sewage inflow position for fixing;

s2, collecting floating oil, namely absorbing and collecting the floating oil on the surface of the sewage through the buoyancy of the sewage;

s3: floating oil treatment, namely sterilizing, neutralizing, stirring, compressing, drying and storing the floating oil;

s4: filtering sundries, filtering and collecting the sundries, and cleaning the filter plate in time;

s5: storing sundries, compressing and storing the sundries, squeezing out redundant moisture in the sundries, and airing;

s6: filtering by using activated carbon, and filtering the sewage by using the activated carbon to remove peculiar smell in the water;

s7, chemical neutralization, namely controlling the entering amount of sewage, and removing nitrogen and phosphorus in the sewage by performing chemical neutralization;

s8: microorganism treatment, wherein sewage is treated by microorganisms to purify the sewage;

s9: detecting, namely detecting the treated sewage;

the method comprises the steps that S1-S9 are completed by adopting village and town sewage treatment equipment in a matched mode, the village and town sewage treatment equipment comprises a sewage treatment box (10), a floating oil treatment component (11) is arranged at one end inside the sewage treatment box (10) to collect, neutralize, stir and compress and store floating oil, a sundry treatment component (12) is arranged at the rear side of the floating oil treatment component (11) to filter and collect sundries, a sundry storage component (13) is arranged above the sundry treatment component (12) to compress and store sundries and air-dry sundries, a chemical neutralization component (14) is arranged in the direction away from the floating oil treatment component (11) to control the entering amount of the sewage and perform chemical neutralization to remove nitrogen and phosphorus in the sewage, a microorganism treatment component (15) is arranged in the direction away from the sundry treatment component (12) to perform microorganism purification, a detection component (16) is arranged in the direction away from the microorganism treatment component (15) to detect the sundries, two telescopic plates (17) are arranged in the sewage treatment box (10) in the direction away from the floating oil treatment component (11), and two telescopic plates (17) are fixedly arranged at the two peripheral ends of the sewage treatment box (10); the floating oil treatment component (11) comprises a recovery sliding block (19), the recovery sliding block (19) is positioned in the sewage treatment box (10) towards the direction of the water inlet (18), the recovery sliding block (19) is connected in the sewage treatment box (10) in a sliding mode, a recovery floating block (20) is fixedly arranged at the lower end of the recovery sliding block (19), a recovery cavity (21) is arranged in the recovery floating block (20), a plurality of inlet holes are formed in the upper portion of the recovery cavity (21) and are connected with the outer portion of the recovery floating block (20), and a suction rod (22) is arranged in the recovery sliding block (19) in a sliding mode; the utility model discloses a sewage treatment device, including a sewage treatment box (10), a sewage treatment box (24), a water inlet (18) and a recovery sliding block (19), a first motor (23) is fixedly arranged in the sewage treatment box (10) on one side of the recovery sliding block (19), a first linkage column (24) is fixedly arranged on the upper end of the first motor (23), the first linkage column (24) is rotationally connected with the sewage treatment box (10), a first centrifugal cavity (25) is arranged in the first linkage column (24), a disinfection solution (26) is arranged in the sewage treatment box (10) on two sides of the first linkage column (24), the disinfection solution (26) is connected with the first centrifugal cavity (25), two discharging holes (33) are fixedly arranged on the first linkage column (24) above the first centrifugal cavity (25), the utility model discloses a sewage treatment device, which is characterized in that two first sliding blocks (27) are arranged on the circumferential surface of a first linkage column (24) in a sliding way, two first moving plates (28) are arranged on the two first sliding blocks (27) in a sliding way away from the first linkage column (24), a pressing cavity (29) is arranged in the first moving plates (28), a pressing group (30) is arranged in the pressing cavity (29) in a sealing sliding way, the pressing group (30) consists of a pressing plate, a sliding plate, a connecting rod and a spring, an alkaline powder storage cavity (32) is arranged below the pressing cavity (29) in the sewage treatment box (10), the alkaline powder storage cavity (32) is connected with the pressing cavity (29), the alkaline powder storage cavity (32) is internally provided with a pressing plate (31) in a sealing sliding manner, the alkaline powder storage cavity (32) is connected with a first centrifugal cavity (25), one side of the first linkage column (24) away from the recovery sliding block (19) is fixedly provided with a second motor (34) in the sewage treatment box (10), the upper end of the second motor (34) is fixedly provided with a second linkage column (35), the second linkage column (35) is rotationally connected in the sewage treatment box (10), the circumferential direction of the second linkage column (35) is fixedly provided with a clamping plate (37), the second linkage column (35) is internally provided with a heating cavity (36), the clamping plate (37) is internally provided with a drying cavity (38), the drying cavity (38) is connected with the heating cavity (36), and one side of the second linkage column (35) away from the discharge hole (33) is provided with a floating oil storage cavity (39) in the sewage treatment box (10); the sundry treatment component (12) comprises a third motor (40), the third motor (40) is located in the direction that a discharge hole (33) is far away from a floating oil storage cavity (39), a third connecting column (41) is fixedly arranged at one end of the third motor (40) towards the floating oil storage cavity (39), a rotating disc (42) is fixedly arranged on the circumferential surface of the third connecting column (41), a plurality of filter cavities (43) are arranged in the rotating disc (42) towards the floating oil storage cavity (39), a plurality of activated carbon cavities (44) are arranged in the rotating disc (42) in the direction that the floating oil storage cavity (39) is far away from the filter cavities (43), a plurality of filter plates (45) are arranged in the rotating disc (42) in a sliding mode between the filter cavities (43) and the activated carbon cavities (44), a connecting block (46) is fixedly arranged in the direction of the third connecting column (41), two clamping blocks (47) are fixedly connected with the two sides of the connecting block (46) in a sliding mode with the third connecting column (41), a sliding block (48) is arranged in the filter block (48), a cleaning block (48) is arranged in the sliding block (48), and a cleaning block (48) is arranged in the sliding block (48), the air pump (50) is connected with the inside of the brush block (49).

2. The method for treating a sewage treatment plant for villages and towns according to claim 1, wherein: the utility model discloses a sewage treatment device, including activated carbon storage cavity (60), filter cavity (43) and activated carbon cavity (44), activated carbon cavity (44) are kept away from the rotation of third linkage post (41) direction and are equipped with a plurality of reload rotor plates (52), the filter (45) are kept away from third linkage post (41) direction and are equipped with trading board mouth (53), fixed block (59) are fixed to third motor (40) top in sewage treatment case (10) upper end, inside top of fixed block (59) is equipped with activated carbon storage cavity (60), fan (61) have been set firmly in fixed block (59) to activated carbon storage cavity (60) below, be connected between filter cavity (43) and activated carbon cavity (44).

3. The method for treating a sewage treatment plant for villages and towns according to claim 2, wherein: the utility model provides a debris storage part (13) is including debris storage case (54), debris storage case (54) are located sewage treatment case (10) upper end of oil slick storage chamber (39) top, sealed slip is equipped with a plurality of extrusion filter boards (55) in debris storage case (54), debris storage case (54) inside upper end is equipped with two storage axis of rotation (56), debris storage case (54) are equipped with universal driving axle (58) to fixed block (59) direction one end rotation, be connected between universal driving axle (58) and two storage axis of rotation (56), a plurality of extrusion filter boards (55) and be equipped with stay cord (57), be connected between debris storage case (54) inside and active carbon chamber (44) and be equipped with business turn over valve (51).

4. A method for treating a sewage treatment plant for villages and towns according to claim 3, wherein: the chemical neutralization component (14) comprises a rotating shaft (62), the rotating shaft (62) is located in the direction that a third motor (40) is far away from a third linkage column (41), the rotating shaft (62) is rotationally connected in a sewage treatment box (10), a rotating wheel (63) is fixedly arranged on the outer circumferential surface of the rotating shaft (62), four fourth motors (64) are fixedly arranged in the circumferential direction of the rotating wheel (63), four fourth linkage columns (65) are fixedly arranged in the direction that the rotating shaft (62) is far away from the four fourth motors (64), two stirring rods (66) are slidably arranged on two sides of each fourth linkage column (65), a second centrifugal cavity (67) is arranged in each fourth linkage column (65), a chemical solution storage cavity (68) is arranged in each second centrifugal cavity (67), and a plurality of outlet valves (69) are arranged in the direction that the second centrifugal cavity (67) is far away from the fourth motors (64) and in an external connection mode.

5. The method for treating a sewage treatment plant for villages and towns according to claim 4, wherein: the microorganism treatment component (15) comprises a fifth motor (70), the fifth motor (70) is fixed in the direction that the rotating shaft (62) is far away from the third motor (40), a fifth linkage column (79) is fixedly arranged at one end of the rotating shaft (62) in the direction of the fifth motor (70), the fifth linkage column (79) is rotationally connected with the sewage treatment tank (10), a filtration rotating disc (71) is fixedly arranged on the outer circumferential surface of the fifth linkage column (79), the filtration rotating disc (71) is rotationally connected with the sewage treatment tank (10), a plurality of microorganism storage plates (72) are arranged in the filtration rotating disc (71), a sliding magnetic block (73) is fixedly arranged at one end of the microorganism storage plate (72) to the fifth linkage column (79), the sliding magnetic block (73) slides in the fifth linkage column (79), a magnetic band conveying mechanism (74) is rotationally arranged in the fifth linkage column (79) in the direction of the rotating away from the microorganism storage plate (72), a plurality of filtration rotating discs (76) are arranged in the direction of the fifth linkage column (79), a plurality of filtration rotating disc (71) are arranged in the direction of the rotation rotating disc (71), the utility model discloses a sewage treatment device, including sewage treatment box (10), filter rolling disc (71) top, interior slip of sewage treatment box (10) is equipped with clamping group (78), clamping group (78) comprise slide bar, rolling disc and clamp splice, be equipped with four purification chamber in filter rolling disc (71), be equipped with three microorganism storage board (72) in the purification chamber.

6. The method for treating a sewage treatment plant for villages and towns according to claim 5, wherein: the detection component (16) comprises a detection group (80), the detection group (80) is located in a direction away from a fifth linkage column (79) by a fifth motor (70), the detection group (80) is rotationally connected in the sewage treatment box (10), the detection group (80) is composed of a detection rotating shaft, a rotating rod and a rotating column, the detection group (80) is detected by treated sewage, the detection group (80) is driven to rotate by the detected sewage, the detection group (80) is not stopped to rotate by the detected sewage, a sliding plate (81) is arranged in the sewage treatment box (10) in a sliding mode in the direction away from the fifth motor (70), and the sliding plate (81) is in linkage connection with the detection group (80).