CN213537539U - High-efficient sewage treatment plant - Google Patents

Abstract

The utility model relates to a sewage treatment technical field especially relates to a high-efficient sewage treatment plant, include: filtration, one-level reaction mechanism, second grade reaction mechanism and dirt processing mechanism, filtration includes the rose box, the filter chamber deposits the recess with filtering, the inside filter chamber that is equipped with of rose box, the filter chamber bottom is equipped with filtering and deposits the recess, one-level reaction mechanism is installed in the rose box left side, the inside first reaction chamber that is equipped with of first reaction box, first motor is installed on first reaction box upper portion, first motor lower part has first rotation axis through the coupling joint, array installation has first stirring leaf on the first rotation axis, second grade reaction mechanism is installed in first reaction box left side, dirt processing mechanism is installed to the rose box bottom, the utility model discloses a many times filter and deposit and block impurity, adopt the stirring in airtight space many times to accelerate the reaction for the processing speed of whole device is more high-efficient.

Description

High-efficient sewage treatment plant

Technical Field

The utility model relates to a sewage treatment technical field especially relates to a high-efficient sewage treatment plant.

Background

Sewage treatment is a process of purifying sewage to meet the water quality requirement of discharging the sewage into a certain water body or reusing the sewage. Sewage treatment is widely applied to various fields such as buildings, agriculture, traffic, energy, petrifaction, environmental protection, urban landscape, medical treatment, catering and the like, and is increasingly used in daily life of common people.

Current sewage treatment plant need distinguish internal impurity earlier, adds to handle after the additive, and quality of water just can discharge after up to standard, but the internal impurity material of current sewage is complicated, and light leans on the sediment to discharge, and the aquatic is still mixed into to partial lighter impurity of quality, and most filters easily not meticulous, influences later stage additive treatment effect, and the additive adds the back simultaneously, needs stir the processing.

Therefore, the high-efficiency sewage treatment device adopts multiple times of filtering and precipitating to block impurities, and adopts multiple times of stirring in a closed space to accelerate reaction, so that the treatment speed of the whole device is more high-efficiency.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide a high-efficiency sewage treatment device, which adopts multiple times of filtration and precipitation to block impurities and adopts multiple times of stirring in an airtight space to accelerate the reaction, so that the treatment speed of the whole device is more high-efficiency.

The utility model discloses a following technical scheme realizes: an efficient sewage treatment device, comprising: the device comprises a filtering structure, a primary reaction mechanism, a secondary reaction mechanism and a dirt treatment mechanism, wherein the filtering structure comprises a filtering box, a filtering cavity and a filtering and precipitating groove, a filter cavity is arranged in the filter box, a filtering sedimentation groove is arranged at the bottom of the filter cavity, the left side of the filter box is provided with a primary reaction mechanism which comprises a first motor, a first reaction box, a first reaction cavity, a first rotating shaft and a first stirring blade, a first reaction chamber is arranged in the first reaction box, a first motor is arranged at the upper part of the first reaction box, the lower part of the first motor is connected with a first rotating shaft through a coupler, the first rotating shaft is provided with first stirring blades in an array manner, the left side of the first reaction box is provided with a secondary reaction mechanism, and the bottom of the filter box is provided with a dirt treatment mechanism.

Further, the filter structure further comprises: sewage injection hole, one-level filter, second grade filter, first contact tube, first derivation pipe valve and rose box support, rose box right side upper portion install the sewage injection hole, filter chamber upper portion install the one-level filter, one-level filter lower part install the second grade filter, the filtration deposit recess bottom install first contact tube, first contact tube mid-mounting have a derivation pipe valve, rose box bottom both sides install the rose box support.

Further, the primary reaction mechanism further comprises: first sewage induction pipe, first valve, first filling hole, reaction precipitate recess and first reaction box support, rose box left side lower part install first sewage induction pipe, first sewage induction pipe mid-mounting have a first valve, first sewage induction pipe left side install first reaction box, first reaction box upper left portion install first filling hole, first reaction box bottom be equipped with the reaction precipitate recess, first reaction box bottom both sides install first reaction box support.

Further, the second-stage reaction mechanism comprises a second valve, a second sewage leading-in pipe, a second motor, a second reaction box, a second injection hole, a second reaction cavity, a second rotating shaft, a second stirring blade, a delivery pipe valve and a delivery pipe, a second sewage leading-in pipe is arranged at the bottom of the left side of the first reaction box, a second valve is arranged in the middle of the second sewage leading-in pipe, a second reaction box is arranged on the left side of the second sewage leading-in pipe, a second injection hole is arranged on the upper left part of the second reaction box, a second reaction chamber is arranged in the second reaction box, a second motor is arranged at the top of the second reaction box, the second motor is connected with a second rotating shaft through a coupler, second stirring blades are arranged on the second rotating shaft in an array manner, the second reaction box left side lower part install the eduction tube, the eduction tube mid-mounting have a derivation pipe valve.

Furthermore, the dirt treatment mechanism also comprises a dirt storage box, a dirt storage cavity, a dirt delivery pipe, a third motor, a third rotating shaft, a rotating vane, a boss, a telescopic rod, an external rotating vane, a second delivery pipe valve and a dirt box groove, the dirt storage box is arranged on the lower portion of the first delivery pipe, the dirt storage cavity is arranged in the dirt storage box, the dirt delivery pipe is arranged on the lower portion of the right side of the dirt storage box, the third motor is arranged at the top of the dirt storage box, the third rotating shaft is arranged on the lower portion of the third motor through a coupler, the rotating vane is arranged at the bottom of the third rotating shaft, the boss is arranged on the lower portion of the rotating vane in an array mode, the telescopic rods are arranged on two sides of the rotating vane, the external rotating vane is arranged on the outer side of the telescopic rod, the dirt box groove is arranged on, the dirt case recess upper portion install the second and derive the pipe valve, second derivation pipe valve mid-mounting have the second to derive the pipe valve.

Furthermore, through holes are formed in the first stirring blade in an array mode.

Further, the top of the valve of the second outlet pipe is communicated with the bottom of the reaction precipitation groove.

Compared with the prior art, the beneficial effects of the utility model reside in that:

1. the utility model provides a high-efficient sewage treatment plant, the utility model discloses a first motor of installation drives first rotation axis and rotates, and then drives the array and install the first stirring leaf of first rotation epaxial rotation and rotate, stirs the sewage after advancing the filtration in the first reaction chamber for the reaction shortens processing time, and the lifting efficiency, array open on the first stirring leaf has the through-hole, can produce the bubble when the stirring, makes the reaction more thorough.

2. The utility model provides a high-efficient sewage treatment plant, the utility model discloses a sediment that first contact tube and second contact tube will filter in the sediment recess and the reaction sediment recess pours into the dirt holding box into, when handling the sediment in the dirt holding box, drive the third motor and drive the third rotation axis through the shaft coupling and rotate, and then make the rotary vane rotate, make the sediment change by the clearance, prevent to condense, the rotary vane of telescopic link installation is passed through to the rotary vane both sides, can throw away at the rotation type, increase the convenience of clearance.

Drawings

FIG. 1 is a front view of a high efficiency sewage treatment apparatus of the present invention;

FIG. 2 is a view of the internal structure of the high-efficiency sewage treatment device of the present invention.

In the figure: 1. a filter structure; 2. a first-stage reaction mechanism; 3. a secondary reaction mechanism; 4. a dirt disposal mechanism; 101. a sewage injection hole; 102. a filter box; 103. a filter chamber; 104. a first-stage filter plate; 105. a secondary filter plate; 106. filtering and depositing the groove; 107. a first delivery pipe; 108. a first outlet pipe valve; 109. supporting the filter box; 201. a first sewage introducing pipe; 202. a first valve; 203. a first motor; 204. a first reaction chamber; 205. a first reaction chamber; 206. a first injection hole; 207. a first rotating shaft; 208. a first stirring blade; 209. a reaction precipitation groove; 210. a first reaction box support; 301. a second valve; 302. a second sewage introducing pipe; 303. a second motor; 304. a second reaction chamber; 305. a second injection hole; 306. a second reaction chamber; 307. a second rotation shaft; 308. a second stirring blade; 309. a lead-out tube valve; 310. a delivery pipe; 401. a dirt storage bin; 402. a dirt storage chamber; 403. a dirt delivery pipe; 404. a third motor; 405. a third rotation axis; 406. rotating the leaf; 407. a boss; 408. a telescopic rod; 409. an outer rotating blade; 410. a second delivery pipe; 411. a second outlet pipe valve; 412. dirt case recess.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that the embodiments or technical features described below can be arbitrarily combined to form a new embodiment without conflict.

As shown in fig. 1 to 2, a high efficiency sewage treatment apparatus includes: filtration 1, one-level reaction mechanism 2, second grade reaction mechanism 3 and dirt processing mechanism 4, filtration 1 includes rose box 102, filter chamber 103 and filtration precipitation recess 106, the inside filter chamber 103 that is equipped with of rose box 102, be used for the prefilter to sewage, filter chamber 103 bottom is equipped with filtration precipitation recess 106, solid particle in the sewage deposits the back, be used for the storage, one-level reaction mechanism 2 is installed in rose box 102 left side, one-level reaction mechanism 2 includes first motor 203, first reaction box 204, first reaction chamber 205, first rotation axis 207 and first stirring leaf 208, the inside first reaction chamber 205 that is equipped with of first reaction box 204, after pouring into the reaction mass, carry out first processing to sewage, first motor 203 is installed on first reaction box 204 upper portion, the utility model discloses the specific model of used first motor 203 does: loose MSMF082L1U2M, rated power 750W, rated revolution speed 3000rpm, rated voltage 220V, first motor 203 lower part is connected with first rotation axis 207 through the shaft coupling, first stirring leaf 208 is installed on the first rotation axis 207 in array, first motor 203 through the installation drives first rotation axis 207 and rotates, and then drive the array and install first stirring leaf 208 on first rotation axis 207 and rotate, stir the sewage after advancing the filtration in first reaction chamber 205, accelerate the reaction, shorten the treatment time, raise the efficiency, second grade reaction mechanism 3 is installed on the left of first reaction box 204, dirt processing mechanism 4 is installed to filter box 102 bottom.

The filtering structure 1 further comprises a sewage filling hole 101, a first-stage filtering plate 104, a second-stage filtering plate 105, a first delivery pipe 107, a first delivery pipe valve 108 and a filtering box support 109, the sewage filling hole 101 is installed at the upper part of the right side of the filtering box 102, the first-stage filtering plate 104 is installed at the upper part of the filtering cavity 103, the second-stage filtering plate 105 is installed at the lower part of the first-stage filtering plate 104, the first delivery pipe 107 is installed at the bottom of the filtering precipitation groove 106, the first delivery pipe valve 108 is installed at the middle part of the first delivery pipe 107, the filtering box support 109 is installed at two sides of the bottom of the filtering box 102, and after the sewage is filled into the filtering cavity 103 through the sewage filling hole 101, the filtering is firstly carried out twice through the filtering, particles in the sewage are blocked and prevented from entering the first-stage reaction mechanism 2 and the second-stage reaction, can change at any time, raise the efficiency.

First-order reaction mechanism 2 still includes first sewage inlet tube 201, first valve 202, first filling hole 206, reaction precipitation recess 209 and first reaction box support 210, first sewage inlet tube 201 is installed to rose box 102 left side lower part, first sewage inlet tube 201 mid-mounting has first valve 202, first reaction box 204 is installed on first sewage inlet tube 201 left side, first filling hole 206 is installed on the upper left portion of first reaction box 204, first reaction box 204 bottom is equipped with reaction precipitation recess 209, the tiny material of separation will not filtered in filtration 1, deposit the back and store, first reaction box support 210 is installed to first reaction box 204 bottom both sides.

Second order reaction mechanism 3 includes second valve 301, second sewage inlet tube 302, second motor 303, second reaction box 304, second filling hole 305, second reaction chamber 306, second rotation axis 307, second stirring leaf 308, delivery pipe valve 309 and delivery pipe 310, second sewage inlet tube 302 is installed to first reaction box 204 left side bottom, second sewage inlet tube 302 mid-mounting has second valve 301, second reaction box 304 is installed in second sewage inlet tube 302 left side, second filling hole 305 is installed to the upper left portion of second reaction box 304, the inside second reaction chamber 306 that is equipped with of second reaction box 304, second motor 303 is installed at second reaction box 304 top, the utility model discloses the concrete model of second motor 303 that is used does: the loose MSMF082L1U2M, the rated power is 750W, the rated rotating speed is 3000rpm, the rated voltage is 220V, the second motor 303 is connected with the second rotating shaft 307 through a coupler, the second rotating shaft 307 is provided with the second stirring blades 308 in an array mode, the lower portion of the left side of the second reaction chamber 304 is provided with the delivery pipe 310, the middle of the delivery pipe 310 is provided with the delivery pipe valve 309, when the installed second motor 303 rotates, the second rotating shaft 307 is driven to rotate through the coupler, the second stirring blades 308 arranged in an array mode on the second rotating shaft 307 are controlled to rotate, the sewage injected into the second reaction chamber 306 from the first reaction chamber 204 through the second sewage inlet pipe 302 is subjected to secondary reaction treatment, and the sewage treatment is more efficient and thorough.

Dirt processing mechanism 4 still includes dirt storage box 401, dirt storage chamber 402, dirt eduction tube 403, third motor 404, third rotation axis 405, rotatory leaf 406, boss 407, telescopic link 408, outside rotatory leaf 409, second eduction tube 410, second eduction tube valve 411 and dirt case recess 412, dirt storage box 401 is installed to first eduction tube 107 lower part, dirt storage box 401 is inside to be equipped with dirt storage chamber 402, dirt eduction tube 403 is installed to dirt storage box 401 right side lower part, third motor 404 is installed at dirt storage box 401 top, the utility model discloses the specific model of used third motor 404 is: a loose MSMF082L1U2M, a rated power of 750W and a rated rotating speed of 3000rpm, a third rotating shaft 405 is installed at the lower part of a third motor 404 through a coupling, a rotating blade 406 is installed at the bottom of the third rotating shaft 405, a boss 407 is arranged at the lower part of the rotating blade 406 in an array manner, telescopic rods 408 are installed at two sides of the rotating blade 406, external rotating blades 409 are installed at the outer sides of the telescopic rods 408, a dirt box groove 412 is arranged at the left side of the upper part of the dirt storage box 401, a second outlet pipe valve 411 is installed at the upper part of the dirt box groove 412, a second outlet pipe valve 411 is installed at the middle part of the second outlet pipe valve 411, precipitates in the filtering and precipitating groove 106 and the reaction and precipitating groove 209 are injected into the dirt storage box 401 through a first outlet pipe 107 and a second outlet pipe 410, when the precipitates in the dirt storage box 401 are treated, the third motor 404 is driven and the third rotating shaft 405, make the precipitate change by the clearance, prevent to condense, the rotatory leaf 409 of telescopic link 408 installation is passed through to rotatory leaf 406 both sides, can throw away at the rotation type, increases the convenience of clearance, and the array is opened on the first stirring leaf 208 has the through-hole, can produce the bubble when the stirring for the reaction is more thorough, and second derivation pipe valve 411 top communicates with each other bottom the reaction precipitation recess 209.

In a specific embodiment of the present design, as shown in fig. 1 to 2, a filter chamber 103 is disposed inside a filter tank 102 for preliminary filtering of sewage, a filtering and precipitating groove 106 is disposed at the bottom of the filter chamber 103 for precipitating solid particles in sewage for storage, a first motor 203 is mounted at the upper portion of a first reaction tank 204, the lower portion of the first motor 203 is connected to a first rotating shaft 207 through a coupling, a first stirring blade 208 is mounted on the first rotating shaft 207 in an array, the first rotating shaft 207 is driven to rotate by the mounted first motor 203, and further the first stirring blade 208 mounted on the first rotating shaft 207 in an array is driven to rotate, so as to stir the filtered sewage in the first reaction chamber 205, accelerate the reaction, shorten the treatment time, and improve the efficiency, and the first-stage filter plate 104 and the second-stage filter plate 105 are mounted, so that the sewage is injected into the filter chamber 103 through a sewage injection hole 101, firstly, filtering twice, separating particulate matters in sewage, preventing the particulate matters from entering a first-stage reaction mechanism 2 and a second-stage reaction mechanism 3, wherein the first-stage filter plate 104 and the second-stage filter plate 105 are adopted, and can be replaced at any time, so that the efficiency is improved, a first reaction box 204 is installed on the left side of a first sewage leading-in pipe 201, a first injection hole 206 is installed on the upper left part of the first reaction box 204, a reaction precipitation groove 209 is arranged at the bottom of the first reaction box 204, fine substances which are not filtered and separated in a filter structure 1 are precipitated and stored, first reaction box supports 210 are installed on two sides of the bottom of the first reaction box 204, when a second motor 303 which is installed rotates, a second rotating shaft 307 is driven to rotate through a coupler, so that second stirring blades 308 which are installed on the second rotating shaft 307 in an array mode are controlled to rotate, and sewage which is injected into a second reaction chamber 306 from the first reaction box 204 through a second sewage leading-in pipe 302 is subjected, make sewage treatment's more high-efficient thorough, will filter through first delivery tube 107 and second delivery tube 410 and deposit recess 106 and reaction and deposit the deposit in recess 209 and pour into dirt storage box 401 into, when handling the deposit in dirt storage box 401, drive third motor 404 and drive third rotation axis 405 through the shaft coupling and rotate, and then make swivel leaf 406 rotate, make the deposit change by the clearance, prevent to condense, swivel leaf 409 of telescopic link 408 installation is passed through to swivel leaf 406 both sides, can throw away at the rotation type, increase the convenience of clearance, it has the through-hole to open in the array on first stirring leaf 208, can produce the bubble when the stirring, make the reaction more thorough.

It should be understood that although the present description refers to embodiments, not every embodiment contains only a single technical solution, and such description is for clarity only, and those skilled in the art should take the description as a whole, and the technical solutions in the embodiments may be appropriately combined to form other embodiments understood by those skilled in the art.

Claims (7)

1. An efficient sewage treatment device, characterized by comprising: the device comprises a filtering structure (1), a primary reaction mechanism (2), a secondary reaction mechanism (3) and a dirt treatment mechanism (4), wherein the filtering structure (1) comprises a filtering box (102), a filtering cavity (103) and a filtering and precipitating groove (106), the filtering cavity (103) is arranged in the filtering box (102), the filtering and precipitating groove (106) is arranged at the bottom of the filtering cavity (103), the primary reaction mechanism (2) is arranged on the left side of the filtering box (102), the primary reaction mechanism (2) comprises a first motor (203), a first reaction box (204), a first reaction cavity (205), a first rotating shaft (207) and a first stirring blade (208), the first reaction cavity (205) is arranged in the first reaction box (204), the first motor (203) is arranged on the upper part of the first reaction box (204), the lower part of the first motor (203) is connected with the first rotating shaft (207) through a coupling, first stirring leaf (208) are installed on first rotation axis (207) array, first reaction tank (204) left side install second grade reaction mechanism (3), filter tank (102) bottom install dirt processing mechanism (4).

2. The high efficiency sewage treatment plant according to claim 1, wherein: the filter structure (1) further comprises: sewage filling hole (101), one-level filter (104), second grade filter (105), first delivery pipe (107), first delivery pipe valve (108) and rose box support (109), rose box (102) right side upper portion install sewage filling hole (101), filter chamber (103) upper portion install one-level filter (104), one-level filter (104) lower part install second grade filter (105), filtration precipitation recess (106) bottom install first delivery pipe (107), first delivery pipe (107) mid-mounting have first delivery pipe valve (108), rose box (102) bottom both sides install rose box support (109).

3. The high efficiency wastewater treatment plant according to claim 2, wherein: the first-stage reaction mechanism (2) further comprises: first sewage induction pipe (201), first valve (202), first filling hole (206), reaction sediment recess (209) and first reaction box support (210), rose box (102) left side lower part install first sewage induction pipe (201), first sewage induction pipe (201) mid-mounting have first valve (202), first sewage induction pipe (201) left side install first reaction box (204), first reaction box (204) upper left portion install first filling hole (206), first reaction box (204) bottom be equipped with reaction sediment recess (209), first reaction box (204) bottom both sides install first reaction box support (210).

4. The high efficiency wastewater treatment plant according to claim 3, wherein: the second-stage reaction mechanism (3) comprises a second valve (301), a second sewage leading-in pipe (302), a second motor (303), a second reaction box (304), a second injection hole (305), a second reaction cavity (306), a second rotating shaft (307), a second stirring blade (308), a leading-out pipe valve (309) and a leading-out pipe (310), the second sewage leading-in pipe (302) is installed at the bottom of the left side of the first reaction box (204), the second valve (301) is installed in the middle of the second sewage leading-in pipe (302), the second reaction box (304) is installed on the left side of the second sewage leading-in pipe (302), the second injection hole (305) is installed at the upper left part of the second reaction box (304), the second reaction cavity (306) is arranged inside the second reaction box (304), the second motor (303) is installed at the top of the second reaction box (304), second motor (303) pass through the shaft coupling and be connected with second rotation axis (307), second stirring leaf (308) are installed to the array on second rotation axis (307), second reaction box (304) left side lower part install delivery pipe (310), delivery pipe (310) mid-mounting have delivery pipe valve (309).

5. The high efficiency wastewater treatment plant according to claim 2, wherein: the dirt treatment mechanism (4) further comprises a dirt storage box (401), a dirt storage cavity (402), a dirt delivery pipe (403), a third motor (404), a third rotating shaft (405), rotating blades (406), a boss (407), an expansion rod (408), external rotating blades (409), a second delivery pipe (410), a second delivery pipe valve (411) and a dirt box groove (412), the dirt storage box (401) is installed on the lower portion of the first delivery pipe (107), the dirt storage cavity (402) is arranged in the dirt storage box (401), the dirt delivery pipe (403) is installed on the lower portion of the right side of the dirt storage box (401), the third motor (404) is installed on the top of the dirt storage box (401), the third rotating shaft (405) is installed on the lower portion of the third motor (404) through a coupler, the rotating blades (406) are installed on the bottom of the third rotating shaft (405), rotatory leaf (406) lower part array be equipped with boss (407), rotatory leaf (406) both sides install telescopic link (408), telescopic link (408) outside install outside rotatory leaf (409), dirt storage box (401) upper portion left side be equipped with dirt case recess (412), dirt case recess (412) upper portion install second derivation pipe valve (411), second derivation pipe valve (411) mid-mounting have second derivation pipe valve (411).

6. The high efficiency sewage treatment plant according to claim 1, wherein: through holes are arranged on the first stirring blade (208) in an array manner.

7. The high efficiency wastewater treatment plant according to claim 5, wherein: the top of the second outlet pipe valve (411) is communicated with the bottom of the reaction precipitation groove (209).

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