CN113683232A - Automatic high-efficiency wastewater treatment device and use method thereof - Google Patents

Abstract

The invention relates to the technical field of wastewater treatment, and discloses an automatic high-efficiency wastewater treatment device and a using method thereof, wherein the device comprises a first filtering device, a first mixing device, a second filtering device and a second mixing device, the first filtering device comprises a first filtering tank, a first filtering plate is connected to the upper side of the inner wall of the first filtering tank, an acting plate is connected to the outer wall of a first rotating rod, the rear sides of a plurality of groups of first rotating rods penetrate through the rear side wall of the first filtering tank and are connected with a chain belt, a first motor is installed at the rear end of the first filtering tank through an installation frame, the transmission end of the first motor is connected with the rear side of the first rotating rod on the right side, the front side wall and the rear side wall of the first filtering tank are connected with second rotating rods, the outer side of the second rotating rod is connected with a hopper turning plate, and by arranging the first mixing device, medicaments can uniformly enter the second filtering tank, while mixing with the waste liquid that is evenly fed into the first mixing device.

Description

Automatic high-efficiency wastewater treatment device and use method thereof

Technical Field

The invention belongs to the technical field of wastewater treatment, and particularly relates to an automatic high-efficiency wastewater treatment device and a use method thereof.

Background

The water treatment is a process for purifying sewage to meet the water quality requirement of discharging the sewage into a certain water body or reusing the sewage, the sewage treatment is widely applied to various fields of buildings, agriculture, traffic, energy, petrifaction, environmental protection, urban landscape, medical treatment, catering and the like, the sewage treatment also increasingly enters the daily life of common people, sewage treatment pools are classified according to sewage sources, the sewage treatment is generally divided into production sewage treatment and domestic sewage treatment, and the production sewage comprises industrial sewage, agricultural sewage, medical sewage and the like.

Most of the existing sewage treatment devices are mixed with sewage through sewage treatment agents, most of the existing sewage treatment devices are used for enabling the sewage treatment agents to automatically react in a treatment tank, the operation is simple in sewage treatment, the treatment effect of the sewage is greatly reduced due to the fact that the sewage and the treatment agents are not uniformly mixed, and the required effect of the sewage is difficult to generate due to the fact that a stirring device in the treatment tank is large in the treatment tank.

Disclosure of Invention

Aiming at the situation and overcoming the defects of the prior art, the invention provides an automatic high-efficiency wastewater treatment device and a using method thereof, which effectively solve the problems that most of the existing wastewater treatment is realized by mixing a wastewater treatment agent with wastewater, most of the wastewater treatment agents are put into a treatment tank to automatically react in the using process, the wastewater treatment is simple in operation, the treatment effect is greatly reduced due to uneven mixing of the wastewater and the treatment agent, and the required effect is difficult to generate due to a large treatment tank of a stirring device in the treatment tank.

In order to achieve the purpose, the invention provides the following technical scheme: an automatic high-efficiency wastewater treatment device comprises a first filtering device, a first mixing device, a second filtering device and a second mixing device, the first filtering device comprises a first filtering box, a first filtering plate is connected with the upper side of the inner wall of the first filtering box, the front side wall and the rear side wall of the first filter box are connected with a plurality of groups of first rotating rods, the outer wall of each first rotating rod is connected with an acting plate, the rear sides of the plurality of groups of first rotating rods penetrate through the rear side wall of the first filter box and are connected with a chain belt, the rear end of the first filter box is provided with a first motor through a mounting frame, the transmission end of the first motor is connected with the rear side of the first rotating rod on the right side, the front and rear side walls of the first filter tank are connected with second rotating rods, the outer sides of the second rotating rods are connected with a tipping plate, the rear side of the first filter box is provided with a second motor through a mounting frame, and the transmission end of the second motor is connected with the rear side of the second rotating rod.

Preferably, first mixing arrangement includes first mixing box, the third motor is installed through the mounting bracket to the upside of first mixing box, the transmission end of third motor is connected with the third bull stick, the outer wall of third bull stick evenly is provided with first mixing leaf, the upside of third bull stick is connected with first bevel gear, the blowing case is installed on the top of first mixing box, the downside of blowing case is connected with square pipe, the lateral wall is connected with the fourth bull stick about the square pipe inner chamber, the outer wall connection of fourth bull stick is the finite material piece, the right side of fourth bull stick runs through the right lateral wall of square pipe and is connected with second bevel gear, second bevel gear meshes with first bevel gear mutually.

Preferably, the second filter equipment includes the suction pump, the left side of suction pump is connected with first connection water pipe, the left side of first connection water pipe is connected with the upside of first rose box right side wall, the right side of suction pump is connected with the second and connects the water pipe, the right side that the water pipe was connected to the second runs through the left side wall of first mixing box and is connected with the filter tube, the right side of filter tube is connected with the third and connects the water pipe, the right side that the water pipe was connected to the third runs through the right side wall of first mixing box and is connected with the second solenoid valve.

Preferably, the second mixing arrangement includes the second rose box, the upside of second rose box is connected with the unloading case, the right side wall connection of unloading case has the sixth bull stick, the outer wall connection of sixth bull stick has the spiral leaf, the left side wall of unloading case seted up with spiral leaf assorted through-hole, the fifth motor is installed through the mounting bracket to the right side wall of second rose box, the right side wall that the right side of sixth bull stick runs through the unloading case is held with the transmission of fifth motor and is connected, the left side wall connection of second rose box has the fourth to connect the water pipe, the left side of fourth to connect the water pipe is connected with the right side wall of first rose box.

Preferably, a fourth motor is installed on the upper side of the second filter tank, a fifth rotating rod is connected to the upper side wall and the lower side wall of the second filter tank, a transmission end of the fourth motor is connected with the upper side of the fifth rotating rod, and second mixing blades are uniformly arranged on the outer wall of the fifth rotating rod.

Preferably, the lower side of the right side wall of the second filter box is connected with a fifth connecting water pipe, and the right side of the fifth connecting water pipe is connected with a large-scale sewage purification tank.

Preferably, the downside of first mixing box inner wall is connected with the second filter, the second filter is located the downside of third bull stick, the second filter is located the upside of filter tube, the downside of lateral wall all is connected with the effect pipe around the first mixing box, the effect pipe is located the downside of second filter, and is two sets of one side that first mixing box was kept away from to the effect pipe all is connected with first solenoid valve.

Preferably, the rear sides of the multiple groups of first rotating rods are connected with chain blocks, and the chain belts are located inside the chain blocks.

Preferably, the right side wall of the inner cavity of the first filter tank is connected with a filter cover, and the left side of the first connecting water pipe is connected with the filter cover.

A use method of an automatic high-efficiency wastewater treatment device comprises the following steps:

s1, the device collects waste water before use, then the waste water is pumped out by a water pump and enters the device through the upper side of a first filter box, the waste water is filtered for the first time by a first filter plate, the filtered waste water enters the inner cavity of the first filter box, a first motor is started, a first rotating rod on the left side is driven to rotate by the first motor, a chain belt is driven to rotate by the rotation of the first rotating rod on the left side, the other first rotating rods are driven to rotate by the rotation of the chain belt, an action plate is driven to rotate by the rotation of the other first rotating rods, impurities remained on the upper side of the first filter plate are sequentially moved to the upper side of a tipping plate from right to left by the rotation of the action plate, a second motor is started, a second rotating rod is driven to rotate by the second rotating rod, the tipping plate is driven to rotate, the impurities placed on the upper side of the tipping plate are poured out of the first filter box by the rotation of the tipping plate, when the tipping plate is tipped, the rest action plates stop working, after the waste water filters large-particle impurities through the first filter plate, the rest waste liquid and small-particle impurities fall to the lower side of the first filter tank through the first filter plate, the heavy-mass part of the small-particle impurities is deposited on the lower side of the first filter tank, and a drain pipe can be arranged on the lower side of the first filter tank to absorb and discharge the sediments;

s2, starting a water suction pump, absorbing waste liquid in an inner cavity of a first filter box by the water suction pump through a first connecting water pipe, discharging the waste liquid into the filter pipe through a second connecting water pipe, uniformly forming through holes in the outer side of the filter pipe, allowing the waste liquid to enter the inner cavity of a first mixing box after being filtered for the second time through the filter pipe, simultaneously leaving part of impurities in the filter pipe, opening a second electromagnetic valve when the impurities in the filter pipe are accumulated, discharging the impurities in the filter pipe out of the inner cavity of the first mixing box through a third connecting water pipe, allowing the waste liquid to continuously move upwards, allowing the waste liquid to enter the upper side of the inner cavity of the first mixing box after being filtered for the third time through a second filter plate, allowing the impurities blocked by the second filter plate to deposit on the lower side of the first mixing box, flushing external gas or water source into the inner cavity of the first mixing box through opening a first electromagnetic valve on the front side, and discharging the impurities through a rear acting pipe;

s3, starting a third motor, driving a third rotating rod to rotate through the third motor, driving a first bevel gear to rotate through the rotation of the third rotating rod, driving a second bevel gear to rotate through the rotation of the first bevel gear, driving a fourth rotating rod to rotate through the rotation of the second bevel gear, driving a limiting block to rotate through the rotation of the fourth rotating rod, discharging a sewage treatment agent placed in a square pipe through the rotation of the limiting block, driving a first mixing blade to rotate through the rotation of the third rotating rod after the agent is contacted with the waste liquid, mixing the waste liquid through the rotation of the first mixing blade, and mixing the waste liquid with the sewage treatment agent;

s4, the waste liquid enters the inner cavity of the second filter box through the fourth connecting water pipe, the fifth motor is started, the fifth motor drives the sixth rotating rod to rotate, the spiral blade is driven to rotate through the rotation of the sixth rotating rod, the sewage treatment agent placed in the first filter plate is brought into the inner cavity of the second filter box through the rotation of the spiral blade, the fourth motor is started, the fifth rotating rod is driven to rotate through the fourth motor, the second mixing blade is driven to rotate through the rotation of the fifth rotating rod, and the waste liquid is driven to be mixed with the sewage treatment agent through the rotation of the second mixing blade and then is discharged into the large-scale sewage purification tank through the fifth connecting water pipe.

Compared with the prior art, the invention has the beneficial effects that:

1. the first mixing device is arranged to enable the chemicals to uniformly enter the second filter box and simultaneously be mixed with the waste liquid uniformly entering the first mixing device, the second bevel gear rotates to drive the fourth rotating rod to rotate, the fourth rotating rod rotates to drive the material limiting block to rotate, the sewage treatment chemicals placed in the square tube are discharged through the rotation of the material limiting block, and the first mixing blade rotates to mix the waste liquid, so that the waste liquid is mixed with the sewage treatment chemicals;

2. the large impurities in the waste liquid can be filtered and removed by arranging the first filtering device, the waste water is filtered for the first time by the first filtering plate, the impurities remained on the upper side of the first filtering plate are sequentially moved to the upper side of the tipping plate from right to left by rotating the acting plate, and the impurities placed on the upper side of the tipping plate are poured out of the first filtering box by rotating the tipping plate;

3. the second mixing device is arranged to enable the agent to uniformly enter the second filter tank and simultaneously mix with the waste liquid uniformly entering the second filter tank, the fifth motor drives the sixth rotating rod to rotate, the sixth rotating rod drives the spiral blade to rotate, and the spiral blade rotates to bring the sewage treatment agent placed in the first filter plate into the inner cavity of the second filter tank;

4. through setting up the second filter, the effect pipe cooperatees with first solenoid valve and can filters the waste liquid, and the waste liquid continues the rebound, carries out the upside that gets into first mixing box inner chamber after filtering for the third time to the waste liquid through the second filter, and the impurity that is blockked by the second filter is through opening the inner chamber that the first solenoid valve of front side rushed into first mixing box with outside gas or water source after first mixing box downside deposits to through the discharge of rear side effect pipe.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

In the drawings:

FIG. 1 is a schematic view of the structure of an automated high-efficiency wastewater treatment apparatus according to the present invention;

FIG. 2 is a schematic diagram of the inner cavity structure of a first filtering device in an automatic high-efficiency wastewater treatment device according to the present invention;

FIG. 3 is a rear view of an automated high efficiency wastewater treatment plant according to the present invention;

FIG. 4 is a schematic structural view of a first filtering device in an automated high-efficiency wastewater treatment device according to the present invention;

FIG. 5 is a schematic structural view of a first mixing device in an automated high-efficiency wastewater treatment plant according to the present invention;

FIG. 6 is a schematic structural view of a second mixing device in an automated high-efficiency wastewater treatment plant according to the present invention;

FIG. 7 is a schematic diagram of the inner chamber structure of the first mixing box in the automatic high-efficiency wastewater treatment device of the present invention;

FIG. 8 is a schematic view of a material-limiting block in an automated high-efficiency wastewater treatment apparatus according to the present invention.

In the figure: 100. a first filtering device; 110. a first filter tank; 120. a first filter plate; 130. a first rotating lever; 140. an action plate; 150. a chain belt; 160. a first motor; 170. a second rotating rod; 180. a tipping plate; 190. a second motor; 200. a first mixing device; 210. a first mixing tank; 211. a second filter plate; 212. an action tube; 213. a first solenoid valve; 220. a third motor; 230. a third rotating rod; 231. a first mixing lobe; 240. a first bevel gear; 250. a material placing box; 260. a square tube; 270. a fourth rotating rod; 280. a limiting block; 290. a second bevel gear; 300. a second filtering device; 310. a water pump; 320. a first connecting water pipe; 321. a filter housing; 330. a second connecting water pipe; 340. a filter tube; 350. a third connecting water pipe; 360. a second solenoid valve; 400. a second mixing device; 410. a second filter tank; 411. a fourth motor; 412. a fifth rotating rod; 413. a second mixing lobe; 420. a blanking box; 430. a sixth rotating rod; 440. helical leaves; 450. a fifth motor; 460. a fourth connecting water pipe; 470. a fifth connecting water pipe; 500. a large-scale sewage purification tank.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments; all other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, 3 and 4, an automatic high efficiency wastewater treatment apparatus includes a first filtering apparatus 100, a first mixing apparatus 200, a second filtering apparatus 300 and a second mixing apparatus 400, the first filtering apparatus 100 includes a first filtering tank 110, a first filtering plate 120 is connected to an upper side of an inner wall of the first filtering tank 110, a plurality of first rotating rods 130 are connected to front and rear side walls of the first filtering tank 110, an acting plate 140 is connected to an outer wall of the first rotating rod 130, rear sides of the plurality of first rotating rods 130 penetrate through a rear side wall of the first filtering tank 110 and are connected to a chain belt 150, a first motor 160 is installed at a rear end of the first filtering tank 110 through an installation frame, a driving end of the first motor 160 is connected to a rear side of the right first rotating rod 130, the front and rear side walls of the first filtering tank 110 are connected to a second rotating rod 170, a hopper plate 180 is connected to an outer side of the second rotating rod 170, a second motor 190 is installed at a rear side of the first filtering tank 110, the driving end of the second motor 190 is connected to the rear side of the second rotating rod 170, and the first filtering device 100 can filter and remove large impurities in the waste liquid.

Referring to fig. 1 to 8, the first mixing apparatus 200 includes a first mixing tank 210, a third motor 220 is mounted on an upper side of the first mixing tank 210 through a mounting bracket, a third rotating rod 230 is connected to a driving end of the third motor 220, first mixing blades 231 are uniformly disposed on an outer wall of the third rotating rod 230, a first bevel gear 240 is connected to an upper side of the third rotating rod 230, a discharge tank 250 is mounted on a top end of the first mixing tank 210, a square tube 260 is connected to a lower side of the discharge tank 250, fourth rotating rods 270 are connected to left and right side walls of an inner cavity of the square tube 260, a limiting block 280 is connected to an outer wall of the fourth rotating rod 270, a right side of the fourth rotating rod 270 penetrates through a right side wall of the square tube 260 and is connected to a second bevel gear 290, the second bevel gear 290 is engaged with the first bevel gear 240, the first mixing apparatus 200 is configured to allow the pharmaceutical to uniformly enter the second filtering tank 410 and be mixed with the waste liquid uniformly entering the first mixing apparatus 200, the second filtering device 300 comprises a water pump 310, a first connecting water pipe 320 is connected to the left side of the water pump 310, the left side of the first connecting water pipe 320 is connected with the upper side of the right side wall of the first filtering tank 110, a second connecting water pipe 330 is connected to the right side of the water pump 310, the right side of the second connecting water pipe 330 penetrates through the left side wall of the first mixing tank 210 and is connected with a filtering pipe 340, the right side of the filtering pipe 340 is connected with a third connecting water pipe 350, the right side of the third connecting water pipe 350 penetrates through the right side wall of the first mixing tank 210 and is connected with a second electromagnetic valve 360, small particle impurities in waste liquid can be filtered and removed by arranging the second filtering device 300, the second filtering device 400 comprises a second filtering tank 410, the upper side of the second filtering tank 410 is connected with a blanking tank 420, the right side wall of the blanking tank 420 is connected with a sixth rotating rod 430, the outer wall of the sixth rotating rod 430 is connected with spiral blades 440, and the left side wall of the blanking tank 420 is provided with through holes matched with the spiral blades 440, the right side wall of the second filter tank 410 is provided with a fifth motor 450 through a mounting frame, the right side of a sixth rotating rod 430 penetrates through the right side wall of the blanking box 420 and is connected with the transmission end of the fifth motor 450, the left side wall of the second filter tank 410 is connected with a fourth connecting water pipe 460, the left side of the fourth connecting water pipe 460 is connected with the right side wall of the first mixing tank 210, the pesticide uniformly enters the second filter tank 410 through the arrangement of a second mixing device 400 and is simultaneously mixed with the waste liquid uniformly entering the second filter tank 410, the upper side of the second filter tank 410 is provided with a fourth motor 411, the upper and lower side walls of the second filter tank 410 are connected with a fifth rotating rod 412, the transmission end of the fourth motor 411 is connected with the upper side of the fifth rotating rod 412, the outer wall of the fifth rotating rod 412 is uniformly provided with a second mixing blade 413, and the waste liquid in the inner cavity of the second filter tank 410 can be mixed through the arrangement of the fourth motor 411, the fifth rotating rod 412 and the second mixing blade 413, so that the sewage treatment agent is mixed with the sewage treatment agent in an accelerated manner, the lower side of the right side wall of the second filter tank 410 is connected with a fifth connecting water pipe 470, the right side of the fifth connecting water pipe 470 is connected with a large-scale sewage purification tank 500, waste liquid can be discharged into the large-scale sewage purification tank 500 for subsequent treatment by arranging the fifth connecting water pipe 470, the lower side of the inner wall of the first mixing tank 210 is connected with a second filter plate 211, the second filter plate 211 is positioned at the lower side of the third rotating rod 230, the second filter plate 211 is positioned at the upper side of the filter pipe 340, the lower sides of the front and rear side walls of the first mixing tank 210 are both connected with action pipes 212, the action pipes 212 are positioned at the lower side of the second filter plate 211, one sides of the two groups of action pipes 212 far away from the first mixing tank 210 are both connected with first electromagnetic valves 213, the waste liquid can be filtered by arranging the second filter plate 211 and matching with the first electromagnetic valves 213, the rear sides of the groups of the first rotating rods 130 are both connected with chain blocks, the chain belt 150 is located inside the chain block, and by arranging the chain block, the separation of the plurality of groups of first rotating rods 130 from the chain belt 150 in the operation process is avoided, the right side wall of the inner cavity of the first filtering box 110 is connected with the filtering cover 321, the left side of the first connecting water pipe 320 is connected with the filtering cover 321, and by arranging the filtering cover 321, the large impurities in the first filtering box 110 can be prevented from entering the water suction pump 310.

The working principle is as follows: in the embodiment of the present invention, before the wastewater is used, the wastewater is collected, pumped out by a water pump, and enters the apparatus through the upper side of the first filter tank 110, the wastewater is filtered for the first time by the first filter plate 120, the filtered wastewater enters the inner cavity of the first filter tank 110, the first motor 160 is started, the first rotating rod 130 on the left side is driven to rotate by the first motor 160, the chain belt 150 is driven to rotate by the rotation of the first rotating rod 130 on the left side, the rest of the first rotating rods 130 are driven to rotate by the rotation of the rest of the first rotating rods 130, the acting plate 140 is driven to rotate by the rotation of the rest of the first rotating rods 130, the impurities remained on the upper side of the first filter plate 120 are sequentially moved from the right side to the left side to the upper side of the skip plate 180, the second motor 190 is started, the second rotating rod 170 is driven to rotate by the second rotating rod 190, the skip plate 180 is driven to rotate by the rotation of the second rotating rod 170, impurities placed on the upper side of the tipping plate 180 are poured out of the first filter tank 110 through rotation of the tipping plate 180, the rest action plates 140 stop working when the tipping plate 180 is tipped, after large-particle impurities are filtered by wastewater through the first filter plate 120, the rest waste liquid and small-particle impurities fall to the lower side of the first filter tank 110 through the first filter plate 120, the heavy-mass part of the small-particle impurities is deposited on the lower side of the first filter tank 110, and a drain pipe can be arranged on the lower side of the first filter tank 110 to absorb and discharge the sediments;

s2, starting the water pump 310, absorbing waste liquid in the inner cavity of the first filter tank 110 by the water pump 310 through the first connecting water pipe 320, discharging the waste liquid into the filter pipe 340 through the second connecting water pipe 330, uniformly forming through holes on the outer side of the filter pipe 340, allowing the waste liquid to enter the inner cavity of the first mixing tank 210 after being filtered for the second time through the filter pipe 340, leaving part of impurities inside the filter pipe 340, opening the second electromagnetic valve 360 when the impurities inside the filter pipe 340 are accumulated, allowing the impurities inside the filter pipe 340 to be discharged out of the inner cavity of the first mixing tank 210 through the third connecting water pipe 350, allowing the waste liquid to continuously move upwards, allowing the waste liquid to enter the upper side of the inner cavity of the first mixing tank 210 after being filtered for the third time through the second filter plate 211, allowing the impurities blocked by the second filter plate 211 to flush external air or water into the inner cavity of the first mixing tank 210 by opening the first electromagnetic valve 213 on the front side after being precipitated on the lower side of the first mixing tank 210, and out through the rear apply tube 212;

s3, the third motor 220 is started, the third rotating rod 230 is driven to rotate by the third motor 220, the first bevel gear 240 is driven to rotate by the rotation of the third rotating rod 230, the second bevel gear 290 is driven to rotate by the rotation of the first bevel gear 240, the fourth rotating rod 270 is driven to rotate by the rotation of the second bevel gear 290, the limiting block 280 is driven to rotate by the rotation of the fourth rotating rod 270, the sewage treatment agent placed inside the square pipe 260 is discharged by the rotation of the limiting block 280, after the agent contacts the waste liquid, the first mixing blade 231 is driven to rotate by the rotation of the third rotating rod 230, the waste liquid is mixed by the rotation of the first mixing blade 231, and the waste liquid is mixed with the sewage treatment agent;

s4, the waste liquid enters the inner cavity of the second filter box 410 through the fourth connecting water pipe 460, the fifth motor 450 is started, the sixth rotating rod 430 is driven to rotate by the fifth motor 450, the spiral vane 440 is driven to rotate by the rotation of the sixth rotating rod 430, the sewage treatment agent placed in the first filter plate 120 is brought into the inner cavity of the second filter box 410 by the rotation of the spiral vane 440, the fourth motor 411 is started, the fifth rotating rod 412 is driven to rotate by the fourth motor 411, the second mixing vane 413 is driven to rotate by the rotation of the fifth rotating rod 412, and the waste liquid and the sewage treatment agent are driven to mix by the rotation of the second mixing vane 413 and then are discharged into the large-scale sewage purification tank 500 through the fifth connecting water pipe 470.

It should be noted that, in this document, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions, and the terms "comprise", "include", or any other variation thereof are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus, and the terms "mount", "connect", or "connect" should be interpreted broadly unless expressly specified or limited to the contrary and may be fixed or removable, or integrally connected; can be mechanically or electrically connected; the two elements may be directly connected or indirectly connected through an intermediate medium, and the two elements may be communicated with each other, and the specific meaning of the above terms in the present invention will be understood by those skilled in the art through specific situations.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. An automatic change high efficiency effluent treatment plant which characterized in that: the filter comprises a first filtering device (100), a first mixing device (200), a second filtering device (300) and a second mixing device (400), wherein the first filtering device (100) comprises a first filtering box (110), a first filtering plate (120) is connected to the upper side of the inner wall of the first filtering box (110), a plurality of groups of first rotating rods (130) are connected to the front side wall and the rear side wall of the first filtering box (110), an acting plate (140) is connected to the outer wall of the first rotating rods (130), a chain belt (150) is connected to the rear side of the plurality of groups of first rotating rods (130) and penetrates through the rear side wall of the first filtering box (110), a first motor (160) is installed at the rear end of the first filtering box (110) through an installation frame, the transmission end of the first motor (160) is connected with the rear side of the right first rotating rod (130), and the front side wall and the rear side wall of the first filtering box (110) are connected with a second rotating rod (170), the outside of second bull stick (170) is connected with tipping plate (180), second motor (190) are installed through the mounting bracket to the rear side of first rose box (110), the transmission end of second motor (190) is connected with the rear side of second bull stick (170).

2. An automated, high efficiency wastewater treatment plant according to claim 1, characterized in that: the first mixing device (200) comprises a first mixing box (210), a third motor (220) is arranged on the upper side of the first mixing box (210) through a mounting frame, the transmission end of the third motor (220) is connected with a third rotating rod (230), the outer wall of the third rotating rod (230) is uniformly provided with first mixing leaves (231), the upper side of the third rotating rod (230) is connected with a first bevel gear (240), the top end of the first mixing box (210) is provided with a material discharging box (250), the lower side of the material placing box (250) is connected with a square pipe (260), the left side wall and the right side wall of the inner cavity of the square pipe (260) are connected with a fourth rotating rod (270), the outer wall of the fourth rotating rod (270) is connected with a limiting block (280), the right side of the fourth rotating rod (270) penetrates through the right side wall of the square pipe (260) and is connected with a second bevel gear (290), the second bevel gear (290) meshes with the first bevel gear (240).

3. An automated, high efficiency wastewater treatment plant according to claim 2, characterized in that: second filter equipment (300) includes suction pump (310), the left side of suction pump (310) is connected with first connection water pipe (320), the left side of first connection water pipe (320) is connected with the upside of first rose box (110) right side wall, the right side of suction pump (310) is connected with second connection water pipe (330), the right side of second connection water pipe (330) runs through the left side wall of first mixing box (210) and is connected with filter tube (340), the right side of filter tube (340) is connected with third connection water pipe (350), the right side of third connection water pipe (350) runs through the right side wall of first mixing box (210) and is connected with second solenoid valve (360).

4. An automated, high efficiency wastewater treatment plant according to claim 2, characterized in that: second mixing arrangement (400) includes second rose box (410), the upside of second rose box (410) is connected with unloading case (420), the right side wall of unloading case (420) is connected with sixth bull stick (430), the outer wall connection of sixth bull stick (430) has spiral leaf (440), the left side wall of unloading case (420) seted up with spiral leaf (440) assorted through-hole, fifth motor (450) are installed through the mounting bracket to the right side wall of second rose box (410), the right side wall that the right side of sixth bull stick (430) runs through unloading case (420) is connected with the transmission end of fifth motor (450), the left side wall of second rose box (410) is connected with fourth connecting water pipe (460), the left side of fourth connecting water pipe (460) is connected with the right side wall of first rose box (210).

5. An automated, high efficiency wastewater treatment plant according to claim 4, characterized in that: a fourth motor (411) is installed on the upper side of the second filtering box (410), a fifth rotating rod (412) is connected to the upper side wall and the lower side wall of the second filtering box (410), the transmission end of the fourth motor (411) is connected with the upper side of the fifth rotating rod (412), and second mixing blades (413) are uniformly arranged on the outer wall of the fifth rotating rod (412).

6. An automated, high efficiency wastewater treatment plant according to claim 5, characterized in that: the lower side of the right side wall of the second filtering box (410) is connected with a fifth connecting water pipe (470), and the right side of the fifth connecting water pipe (470) is connected with a large-scale sewage purification tank (500).

7. An automated, high efficiency wastewater treatment plant according to claim 3, characterized in that: the downside of first mixing box (210) inner wall is connected with second filter (211), second filter (211) are located the downside of third bull stick (230), second filter (211) are located the upside of filter tube (340), the downside of lateral wall all is connected with effect pipe (212) around first mixing box (210), the downside that effect pipe (212) are located second filter (211), and is two sets of one side that first mixing box (210) was kept away from in effect pipe (212) all is connected with first solenoid valve (213).

8. An automated, high efficiency wastewater treatment plant according to claim 1, characterized in that: the rear sides of the multiple groups of first rotating rods (130) are connected with chain blocks, and the chain belt (150) is located inside the chain blocks.

9. An automated, high efficiency wastewater treatment plant according to claim 3, characterized in that: the right side wall of the inner cavity of the first filtering box (110) is connected with a filtering cover (321), and the left side of the first connecting water pipe (320) is connected with the filtering cover (321).

10. Use of an automated high efficiency wastewater treatment plant according to any of claims 1-9, characterized in that:

s1, the device collects waste water before use, then the waste water is pumped out by a water pump and enters the device through the upper side of a first filter box (110), the waste water is filtered for the first time by a first filter plate (120), the filtered waste water enters the inner cavity of the first filter box (110), a first motor (160) is started, a first rotating rod (130) on the left side is driven to rotate by the first motor (160), a chain belt (150) is driven to rotate by the rotation of the first rotating rod (130) on the left side, the rest of the first rotating rods (130) are driven to rotate by the rotation of the chain belt (150), an action plate (140) is driven to rotate by the rotation of the rest of the first rotating rods (130), impurities remained on the upper side of the first filter plate (120) are sequentially moved to the upper side of a skip bucket plate (180) from the right side by the rotation of the action plate (140), a second motor (190) is started, and a second rotating rod (170) is driven to rotate by the second motor (190), the second rotating rod (170) rotates to drive the tipping plate (180) to rotate, impurities placed on the upper side of the tipping plate (180) are poured out of the first filtering box (110) through the rotation of the tipping plate (180), the rest action plates (140) stop working when the tipping plate (180) is tipped over, after large-particle impurities are filtered by wastewater through the first filtering plate (120), the rest waste liquid and small-particle impurities fall to the lower side of the first filtering box (110) through the first filtering plate (120), the heavy part of the small-particle impurities is deposited on the lower side of the first filtering box (110), and a drain pipe can be arranged on the lower side of the first filtering box (110) to absorb and discharge the deposits;

s2, start suction pump (310), suction pump (310) absorbs the inner chamber waste liquid of first rose box (110) inner chamber through first connecting water pipe (320), and arrange into filter tube (340) through second connecting water pipe (330), the through-hole is evenly seted up in the outside of filter tube (340), the waste liquid passes through filter tube (340) and gets into the inner chamber of first mixing box (210) after carrying out the second filtration, partial impurity leaves over the inside at filter tube (340) simultaneously, when filter tube (340) internal impurity piles up, open second solenoid valve (360), impurity in filter tube (340) passes through the inner chamber that third connecting water pipe (350) discharged first mixing box (210), the waste liquid continues the rebound, carry out the upside that enters first mixing box (210) inner chamber after the third filtration to the waste liquid through second filter (211), impurity that is blockked by second filter (211) is through opening preceding side first solenoid valve (213) after first mixing box (210) downside deposits Or the water source is flushed into the inner cavity of the first mixing box (210) and discharged through the rear acting pipe (212);

s3, a third motor (220) is started, a third rotating rod (230) is driven to rotate by the third motor (220), a first bevel gear (240) is driven to rotate by the rotation of the third rotating rod (230), a second bevel gear (290) is driven to rotate by the rotation of the first bevel gear (240), a fourth rotating rod (270) is driven to rotate by the rotation of the second bevel gear (290), a limiting block (280) is driven to rotate by the rotation of the fourth rotating rod (270), and the limiting block (280) rotates to discharge sewage treatment chemicals placed in a square pipe (260), after the chemicals are contacted with the waste liquid, a first mixing blade (231) is driven to rotate by the rotation of the third rotating rod (230), and the waste liquid is mixed by the rotation of the first mixing blade (231), so that the waste liquid is mixed with the sewage treatment chemicals;

s4, the waste liquid enters the inner cavity of the second filter box (410) through the fourth connecting water pipe (460), the fifth motor (450) is started, the sixth rotating rod (430) is driven to rotate through the fifth motor (450), the spiral blade (440) is driven to rotate through the rotation of the sixth rotating rod (430), the sewage treatment agent placed in the first filter plate (120) is brought into the inner cavity of the second filter box (410) through the rotation of the spiral blade (440), the fourth motor (411) is started, the fifth rotating rod (412) is driven to rotate through the fourth motor (411), the second mixing blade (413) is driven to rotate through the rotation of the fifth rotating rod (412), and the waste liquid is driven to be mixed with the sewage treatment agent through the rotation of the second mixing blade (413) and then is discharged into the large-scale sewage purification tank (500) through the fifth connecting water pipe (470).

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