CN119118257B

CN119118257B - A multi-stage potato starch wastewater treatment equipment

Info

Publication number: CN119118257B
Application number: CN202411605665.5A
Authority: CN
Inventors: 卢文明; 刘金春; 王亚萍; 张望生; 李云来; 于凤军; 嵇华
Original assignee: Inner Mongolia Mengsen Agricultural Science And Technology Co ltd
Current assignee: Inner Mongolia Mengsen Agricultural Science And Technology Co ltd
Priority date: 2024-11-12
Filing date: 2024-11-12
Publication date: 2025-01-14
Anticipated expiration: 2044-11-12
Also published as: CN119118257A

Abstract

The invention discloses multistage potato starch sewage treatment equipment, which relates to the technical field of sewage treatment and comprises a treatment tank and a solid waste isolation mechanism, wherein the solid waste isolation mechanism comprises an isolation tank and lifting frames, the two isolation tanks are all arranged at the left end of the inside of the treatment tank, the two lifting frames are all movably arranged in the two isolation tanks respectively, the solid waste discharge mechanism comprises a movable box and a reciprocating box, and the movable box is all arranged at the front end and the rear end of the right top ends of the two isolation tanks respectively. According to the invention, after the lifting frame is driven to ascend, the movable grating is driven to rotate 180 degrees through the movement of the reciprocating box, so that solid wastes accumulated on the movable grating can be conveniently discharged into the isolation pond, the equipment can continuously isolate the solid wastes in the potato starch sewage, the barriers are automatically discharged, the manual workload is reduced, and the pretreatment efficiency of the potato starch sewage is improved.

Description

Multistage potato starch sewage treatment device

Technical Field

The invention relates to the technical field of sewage treatment, in particular to multistage potato starch sewage treatment equipment.

Background

The production of potato starch generally involves washing, crushing, starch separation, washing, dewatering and drying, during which a large amount of waste water is produced, mainly from the potato washing water and the waste water from the starch extraction process, which contains high concentrations of organic substances such as starch, proteins, amino acids, organic acids, fats, sugars, vitamins, etc., as well as suspended solids, silt and other impurities;

The current equipment that carries out processing to potato starch sewage often can not keep apart in pretreatment link to the solid waste who mixes in the potato starch sewage effectively, keep apart for a long time after moreover, often need carry out the manual work and clear up piled up solid waste, the clearance degree of difficulty is big not only, and inefficiency moreover leads to potato starch sewage processing's inefficiency, in addition, when making starch in the starch sewage produce the sediment through heating, starch sediment is attached to heating device easily, pile up for a long time after, starch sediment is difficult to clear up from heating device.

Disclosure of Invention

The invention aims to provide a multi-stage potato starch sewage treatment device for solving the problems in the background technology.

In order to achieve the aim, the invention provides the technical scheme that the multi-stage potato starch sewage treatment equipment comprises a treatment tank;

The solid waste isolation mechanism comprises an isolation pond and lifting frames, wherein the two isolation ponds are arranged at the left end of the inside of the treatment pond, and the two lifting frames are respectively and movably arranged in the two isolation ponds;

the solid waste discharging mechanism comprises two movable boxes and a reciprocating box, wherein the movable boxes are respectively and movably arranged at the front end and the rear end of the right top ends of the two isolation pools, and the reciprocating box is movably arranged between the two movable boxes;

The filtering mechanism comprises a filtering tank which is arranged in the middle of the interior of the treatment tank;

The heating sedimentation mechanism comprises a sedimentation tank and reciprocating rods, the sedimentation tank is arranged at the right end of the interior of the treatment tank, the number of the reciprocating rods is two, the left ends of the reciprocating rods are respectively fixedly arranged at the front end and the rear end of one side, far away from the isolation tank, of the reciprocating box through bolts, and the reciprocating rods are movably arranged at the top ends of the filtering tank and the sedimentation tank;

The driving mechanism comprises a driving shaft, the driving shaft is movably mounted in the middle of the top end of the isolation pond through a bearing, and the right end of the driving shaft is movably mounted in the reciprocating box through insertion.

Preferably, the solid waste isolation mechanism comprises a sewage inlet pipe, lifting toothed plates, connecting shafts, movable grids and baffle plates, wherein the sewage inlet pipe is divided into two groups and is respectively and fixedly installed on the left top ends of the treatment tanks through insertion, the two groups of lifting toothed plates are respectively and fixedly installed in the middle of the left bottom ends of the two lifting frames through the left end and the right end of the two lifting frames, the connecting shafts are respectively and movably installed at one ends of the two lifting frames, the bottom ends of the connecting shafts are far away from the driving shafts, the movable grids are respectively and fixedly sleeved on the two connecting shafts through bolts, and the baffle plates are respectively and fixedly installed in the middle of the left bottom ends of the two lifting frames through bolts.

Preferably, the solid waste discharging mechanism comprises a limiting guide rail, a fixed plate, spring rods and a first spring, wherein the limiting guide rail is two in total and is fixedly installed on the front side and the rear side of the right side top ends of the two isolation pools through bolts respectively, the fixed plate is fixedly installed on one end of the two limiting guide rails, which is far away from the driving shaft, of the two limiting guide rails through bolts, the two movable boxes are two in total and the bottom end of the movable box is movably sleeved on the two limiting guide rails through clamping respectively, the two spring rods are two in total and are fixedly installed in the middle of one side, which is far away from the fixed plate, of the two movable boxes through bolts respectively, the two spring rods are movably installed in the fixed plate through insertion, and the first spring is two in total and is movably sleeved on the two spring rods respectively.

Preferably, the solid waste discharging mechanism comprises racks, a reciprocating groove, tooth grooves and discharging gears, wherein the racks are two in total and are respectively arranged on one side, close to the movable grating, of the two movable boxes through sliding movable mounting, the reciprocating groove is formed in the middle of the left side and the right side of the reciprocating box, the tooth grooves are formed in the top ends of the inner parts of the reciprocating groove, the discharging gears are two in total and are respectively fixedly arranged at one ends, close to the movable boxes, of the two connecting shafts through bolts, and the discharging gears are in meshed movable connection with the racks.

Preferably, the solid waste discharging mechanism comprises a supporting frame, lifting rods and a second spring, wherein the supporting frame is totally two and is respectively fixedly installed in the middle of the top ends of the two movable boxes through bolts, the lifting rods are totally two groups of lifting rods and are respectively movably installed in the two supporting frames through insertion, the bottom ends of the two groups of lifting rods are respectively fixedly installed at the top ends of the two racks through bolts, and the second spring is totally four lifting rods and is respectively movably sleeved on the four lifting rods and is located between the supporting frame and the racks.

Preferably, the filter mechanism comprises a filter layer, a rotating handle, water suction pipes, a water pump and a drain pipe, wherein two ends of the filter layer are movably installed in the middle of the front side and the rear side of the interior of the filter tank through insertion, the rotating handle is positioned on the outer side of the treatment tank and fixedly installed at the front end of the filter layer through bolts, the water suction pipes are totally two and fixedly installed on the front side and the rear side of the filter tank through insertion respectively and are positioned above the filter layer, the water pump is totally two and fixedly installed in the middle of the front side and the rear side of the treatment tank through bolts respectively, the water suction pipes are fixedly installed in the water inlet of the water pump through insertion, one ends of the drain pipe, which are totally two and close to the water pump, are fixedly installed in the water outlet of the water pump through insertion, and one ends of the drain pipe, which are far away from the water pump, are positioned in the sedimentation tank.

Preferably, the heating sedimentation mechanism comprises a heating device, limiting plates, limiting grooves and reciprocating plates, wherein the heating device is fixedly arranged at the bottom end of the interior of the sedimentation tank through bolts, the limiting plates are totally two and are respectively fixedly arranged in the middle of the top ends of the left side and the right side of the sedimentation tank through bolts, the limiting grooves are formed in the middle of the side walls of the limiting plates, the reciprocating rods are movably arranged in the limiting grooves through insertion, and the reciprocating plates are totally two and are respectively sleeved on the two reciprocating rods through bolts, and are respectively positioned at one side close to the two limiting plates.

Preferably, the heating precipitation mechanism comprises two connecting plates, vertical rods and a scraping plate, wherein the two connecting plates are respectively fixedly arranged at the front bottom and the rear bottom of the two reciprocating plates through bolts, the two vertical rods are respectively fixedly arranged at the top ends of the two connecting plates through bolts, the two scraping plates are respectively and uniformly arranged at the bottom ends of the two connecting plates through bolts, the two scraping plates are respectively and fixedly arranged at the bottom ends of the two groups of vertical rods through bolts, and the scraping plate is movably arranged at the top ends of the heating device through sliding.

Preferably, the driving mechanism comprises a mounting plate, a driving motor, lifting gears and a reciprocating gear, wherein the mounting plate is fixedly arranged in the middle of the top end of the left side of the treatment tank through bolts, the driving motor is fixedly arranged at the top end of the mounting plate through bolts, the driving shaft is fixedly connected with an output shaft of the driving motor through bolts, the lifting gears are totally two and respectively fixedly arranged at two ends of the driving shaft through bolts and respectively positioned between the left lifting toothed plate and the right lifting toothed plate, the lifting gears are movably connected with the two lifting toothed plates at the front side and the rear side through meshing, the reciprocating gear is fixedly arranged at one end of the driving shaft in the reciprocating tank through bolts, and the reciprocating gear is movably connected with a tooth groove through meshing.

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

1. According to the invention, the solid waste isolation mechanism and the solid waste discharge mechanism are designed and installed, after the lifting frame is driven to ascend, the movable grating is driven to rotate 180 degrees through the movement of the reciprocating box, so that solid waste piled on the movable grating is conveniently discharged into the isolation pond, when solid waste is being discharged in one isolation pond, the lifting frame in the other isolation pond descends, and then the solid waste in potato starch sewage is isolated through the descending movable grating, so that circulation is performed, the equipment can continuously isolate the solid waste in the potato starch sewage, and the barriers are automatically discharged, so that the manual workload is reduced, and the pretreatment efficiency of the potato starch sewage is improved;

2. According to the invention, the filter mechanism, the heating sedimentation mechanism and the driving mechanism are arranged, the filter layer is turned over by rotating the turning handle so as to be convenient for back flushing the filter layer, so that the filtering effect of the filter layer under long-term use is convenient to maintain, the starch sediment attached to the heating device is scraped by the scraping plate, the phenomenon that the starch sediment is difficult to clean due to attachment of the starch sediment to the heating device during long-term heating is avoided, and the solid waste isolation mechanism, the solid waste discharge mechanism and the heating sedimentation mechanism are driven simultaneously by the driving mechanism, so that the scraping plate is driven to scrape the starch sediment on the heating device while the pretreatment of potato starch sewage is carried out.

Drawings

FIG. 1 is a schematic view of an overall structure provided by an embodiment of the present invention;

FIG. 2 is a schematic diagram of a solid waste isolation mechanism according to an embodiment of the present invention;

FIG. 3 is a schematic view of a movable case and a rack structure according to an embodiment of the present invention;

FIG. 4 is a schematic view of the internal structure of the movable box according to the embodiment of the present invention;

FIG. 5 is a schematic diagram of a driving mechanism according to an embodiment of the present invention;

FIG. 6 is a schematic diagram of a heating and precipitating mechanism according to an embodiment of the present invention;

fig. 7 is a schematic cross-sectional structure of a filtering tank and a sedimentation tank according to an embodiment of the present invention.

The device comprises a treatment tank 1, a solid waste isolation mechanism 2, an isolation tank 202, a sewage inlet pipe 203, a lifting frame 204, a lifting toothed plate 205, a connecting shaft 206, a movable grid 207, a baffle plate 3, a solid waste discharging mechanism 301, a limit guide rail 302, a fixed plate 303, a movable box 304, a spring rod 305, a first spring, a rack 306, a 307, a reciprocating box 308, a reciprocating groove 309, a tooth socket 310, a discharging gear 311, a supporting frame 312, a lifting rod 313, a second spring 4, a filtering mechanism 401, a filtering tank 402, a filtering layer 403, a rotating handle 404, a water pumping pipe 405, a water pump 406, a water draining pipe 5, a heating sedimentation mechanism 501, a sedimentation tank 502, a heating device 503, a limit plate 504, a limit groove 505, a reciprocating rod 506, a reciprocating plate 507, a connecting plate 508, a vertical rod 509, a scraper plate 6, a driving mechanism 601, a mounting plate 602, a driving motor 603, a driving shaft 604, a lifting gear 605 and a lifting gear.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 7, the invention provides a technical scheme that a multi-stage potato starch sewage treatment device comprises a treatment tank 1;

The solid waste isolation mechanism 2 comprises an isolation pond 201 and lifting frames 203, wherein the two isolation ponds 201 are arranged at the left end of the inside of the treatment pond 1, and the two lifting frames 203 are respectively and movably arranged in the two isolation ponds 201;

The solid waste discharging mechanism 3, the solid waste discharging mechanism 3 comprises two movable boxes 303 and a reciprocating box 307, the movable boxes 303 are respectively and movably arranged at the front end and the rear end of the right top ends of the two isolation ponds 201, and the reciprocating box 307 is movably arranged between the two movable boxes 303;

The filtering mechanism 4 comprises a filtering tank 401, and the filtering tank 401 is arranged in the middle of the inside of the treatment tank 1;

The heating sedimentation mechanism 5 comprises a sedimentation tank 501 and a reciprocating rod 505, wherein the sedimentation tank 501 is arranged at the right end inside the treatment tank 1, the reciprocating rod 505 is totally two, the left ends of the reciprocating rod 505 are respectively fixedly arranged at the front end and the rear end of one side, far away from the isolation tank 201, of the reciprocating box 307 through bolts, and the reciprocating rod 505 is movably arranged at the top ends of the filter tank 401 and the sedimentation tank 501;

The driving mechanism 6, the driving mechanism 6 comprises a driving shaft 603, the driving shaft 603 is movably mounted in the middle of the top end of the isolation pond 201 through a bearing, and the right end of the driving shaft 603 is movably mounted in the reciprocating box 307 through insertion.

The fixed waste isolation mechanism 2 comprises a waste inlet pipe 202, lifting toothed plates 204, connecting shafts 205, movable grids 206 and baffle plates 207, wherein the waste inlet pipe 202 is divided into two groups and is fixedly installed at the top end of the left side of the treatment tank 1 through insertion and is respectively positioned in the two isolation tanks 201, the lifting toothed plates 204 are divided into two groups and are respectively installed at the left end and the right end of the two lifting frames 203 close to one side, the connecting shafts 205 are divided into two groups and are respectively movably installed at one end, far away from the driving shaft 603, of the bottom end inside the two lifting frames 203 through bearings, the movable grids 206 are divided into two groups and are respectively fixedly sleeved on the two connecting shafts 205 through bolts, and the baffle plates 207 are divided into two groups and are respectively fixedly installed in the middle of the bottom ends of the left sides of the two lifting frames 203 through bolts; the potato starch sewage is introduced into the two isolation ponds 201 through the sewage inlet pipe 202, at the moment, solid waste in the potato starch sewage entering the isolation ponds 201 is blocked through the movable grating 206 positioned at the bottom end inside the isolation ponds 201, after a large amount of solid waste is accumulated on the movable grating 206, the driving motor 602 is started, the driving shaft 603 is driven by the driving motor 602 to rotate, the lifting gear 604 rotates along with the driving shaft 603, when the lifting gear 604 rotates, the lifting toothed plate 204 positioned in the isolation ponds 201 is driven by the lifting gear 604 to rise, the lifting rack 203 connected with the lifting toothed plate is driven to rise, at the moment, the movable grating 206 accumulating a large amount of solid waste is lifted along with the lifting rack 203, the rising lifting rack 203 also drives the baffle 207 to rise, when the movable grating 206 is lifted to the top end of the isolation ponds 201, the baffle 207 blocks the sewage inlet pipe 202, the sewage inlet pipe 202 stops the starch sewage from entering, and the lifting rack 203 in the other isolation ponds 201 is lowered, and continuing to enter potato starch sewage;

The fixed waste discharging mechanism 3 comprises limit guide rails 301, a fixed plate 302, spring rods 304 and first springs 305, wherein the limit guide rails 301 are shared by two and are respectively fixedly arranged on the front side and the rear side of the top ends of the right sides of the two isolation ponds 201 through bolts, the fixed plate 302 is fixedly arranged at one end, far away from a driving shaft 603, of the two limit guide rails 301 through bolts, the movable box 303 is shared by two and is respectively movably sleeved on the two limit guide rails 301 through clamping, the movable plates are movably sleeved outside the fixed plate 302, the spring rods 304 are shared by two and are respectively fixedly arranged in the middle of one side, far away from the fixed plate 302, of the two movable boxes 303 through bolts, the two spring rods 304 are movably arranged in the fixed plate 302 through insertion, the first springs 305 are shared by two and are respectively movably sleeved on the two spring rods 304;

The solid waste discharging mechanism 3 comprises a rack 306, a reciprocating groove 308, tooth grooves 309 and a discharging gear 310, wherein the rack 306 is divided into two pieces, and is respectively and movably arranged on one side of the two movable boxes 303 close to the movable grid 206 through sliding, the reciprocating groove 308 is formed in the middle of the left side and the right side of the reciprocating box 307, the tooth grooves 309 are formed in the inner top ends of the reciprocating groove 308, the discharging gear 310 is divided into two pieces, and is respectively and fixedly arranged at one ends of the two connecting shafts 205 close to the movable boxes 303 through bolts, the discharging gear 310 is movably connected with the rack 306 through meshing, the movable boxes 303 are pushed to move through the reciprocating box 307, and meanwhile, the discharging gear 310 rising along with the lifting frame 203 is connected with the rack 306, so that the movable boxes 303 simultaneously move while driving the supporting frame 311 to simultaneously move through the lifting rod 312, and the discharging gear 310 is driven to rotate while the rack 306 moves;

The solid waste discharging mechanism 3 comprises two supporting frames 311, lifting rods 312 and a second spring 313, wherein the two supporting frames 311 are respectively and fixedly arranged in the middle of the top ends of the two movable boxes 303 through bolts, the two lifting rods 312 are respectively and movably arranged in the two supporting frames 311 through insertion, the bottom ends of the two lifting rods 312 are respectively and fixedly arranged at the top ends of the two racks 306 through bolts, the four second springs 313 are respectively and movably sleeved on the four lifting rods 312 and are positioned between the supporting frames 311 and the racks 306, the two lifting rods 312 move along with the movable boxes 303 through the supporting frames 311, the racks 306 move along with the lifting rods 312, and the moving racks 306 drive the discharging gears 310 to rotate;

The filtering mechanism 4 comprises a filtering layer 402, a rotating handle 403, water suction pipes 404, a water pump 405 and a drain pipe 406, wherein two ends of the filtering layer 402 are movably installed in the middle of the front side and the rear side of the interior of the filtering tank 401 through insertion, the rotating handle 403 is positioned on the outer side of the processing tank 1 and fixedly installed at the front end of the filtering layer 402 through bolts, the two water suction pipes 404 are respectively fixedly installed on the front side and the rear side of the filtering tank 401 through insertion, the two water suction pipes 404 are respectively fixedly installed in the middle of the front side and the rear side of the processing tank 1 through bolts, one end, close to the water pump 405, of the drain pipe 406 is fixedly installed in a water outlet of the water pump 405 through insertion, one end, far away from the water pump 405, of the drain pipe 406 is positioned in the sedimentation tank 501;

the heating sedimentation mechanism 5 comprises a heating device 502, a limiting plate 503, limiting grooves 504 and reciprocating plates 506, wherein the heating device 502 is fixedly arranged at the inner bottom end of the sedimentation tank 501 through bolts, the limiting plates 503 are totally two and are respectively fixedly arranged in the middle of the left side top end and the right side top end of the sedimentation tank 501 through bolts, the limiting grooves 504 are arranged in the middle of the side walls of the limiting plates 503, the reciprocating plates 505 are movably arranged in the limiting grooves 504 through insertion, the reciprocating plates 506 are totally two and are respectively fixedly sleeved on the two reciprocating rods 505 through bolts and are respectively positioned at one side close to the two limiting plates 503;

The heating sedimentation mechanism 5 comprises two connecting plates 507, vertical rods 508 and scrapers 509, wherein the two connecting plates 507 are respectively and fixedly arranged at the front bottom ends and the rear bottom ends of the two reciprocating plates 506 through bolts, the two vertical rods 508 are respectively and uniformly arranged at the bottom ends of the two connecting plates 507 through bolts, the two scrapers 509 are respectively and fixedly arranged at the bottom ends of the two vertical rods 508 through bolts, and the scrapers 509 are slidably and movably arranged at the top ends of the heating devices 502;

The driving mechanism 6 comprises a mounting plate 601, a driving motor 602, lifting gears 604 and a reciprocating gear 605, wherein the mounting plate 601 is fixedly arranged in the middle of the top end of the left side of the treatment tank 1 through bolts, the driving motor 602 is fixedly arranged at the top end of the mounting plate 601 through bolts, a driving shaft 603 is fixedly connected with an output shaft of the driving motor 602 through bolts, two lifting gears 604 are respectively and fixedly arranged at two ends of the driving shaft 603 through bolts and are respectively positioned between the left lifting toothed plate 204 and the right lifting toothed plate 204, the lifting gears 604 are respectively and movably connected with the two lifting toothed plates 204 on the front side and the rear side through meshing, the reciprocating gear 605 is fixedly arranged at one end of the driving shaft 603 in the reciprocating box 307 through bolts, the reciprocating gear 605 is movably connected with a tooth socket 309 through meshing, the driving motor 602 is fixedly arranged through the mounting plate 601, the driving motor 602 drives the driving shaft 603 to rotate, the lifting gears 604 and the reciprocating gear 605 rotate along with the driving shaft 603, and forward and backward rotation of the driving motor 602 is controlled, so that the cyclic lifting of the lifting frame 203 and the reciprocating movement of the reciprocating box 307 can be controlled.

When the potato starch sewage treatment device is used, potato starch sewage is introduced into two isolation ponds 201 through a sewage inlet pipe 202, at the moment, solid waste in the potato starch sewage entering the isolation ponds 201 is blocked through a movable grating 206 positioned at the bottom end inside the isolation ponds 201, after a large amount of solid waste is accumulated on the movable grating 206, a driving motor 602 is started, a driving shaft 603 is driven to rotate through the driving motor 602, a lifting gear 604 rotates along with the driving shaft 603, when the lifting gear 604 rotates, a lifting toothed plate 204 positioned in the isolation ponds 201 is driven to rise by the lifting gear 604 to drive a lifting frame 203 connected with the lifting toothed plate to rise, at the moment, the movable grating 206 accumulating a large amount of solid waste rises along with the lifting frame 203, the rising lifting frame 203 also drives a baffle 207 to rise, and when the movable grating 206 rises to the top end of the isolation ponds 201, the baffle 207 blocks the sewage inlet pipe 202, so that the starch sewage enters into the sewage inlet pipe 202, and the lifting frame 203 in the other isolation ponds 201 descends, and starch sewage continues to enter;

When the driving shaft 603 rotates, the reciprocating gear 605 is driven to rotate, the reciprocating box 307 is driven to move to the lifting frame 203 which is lifted at the same time through the reciprocating gear 605, when the movable grating 206 is lifted to the top end of the isolation pond 201, the reciprocating box 307 contacts with the movable box 303 at the moving direction end, the movable box 303 is pushed to move through the reciprocating box 307, and simultaneously, the discharge gear 310 which is lifted along with the lifting frame 203 is connected with the rack 306, so that the movable box 303 moves while driving the supporting frame 311 to move, and the rack 306 is driven to move simultaneously through the lifting rod 312, when the rack 306 moves, the discharge gear 310 is driven to rotate, when the discharge gear 310 rotates, the movable grating 206 is driven to rotate through the connecting shaft 205, and after the movable grating 206 rotates 180 degrees, the driving motor 602 is controlled to stop, at the moment, solid waste accumulated on the movable grating 206 is conveniently discharged into the isolation pond 201, when the solid waste is being discharged in one isolation pond 201, the sewage inlet pipe 202 in the isolation pond 201 is connected through the baffle 207, and the other isolation pond 201 is simultaneously moved, and the rack 306 is driven to move simultaneously, the discharge gear 310 is driven to rotate, the movable grating 206 is driven to rotate through the connecting shaft 206, and the sewage is stopped, and the sewage is continuously discharged in the isolation pond 201, and the sewage is blocked by the sewage is continuously, and the sewage is discharged in the isolation pond is in the state, and the sewage is stopped by the sewage is in the isolation pond 201, and the state;

After being blocked by the movable grating 206, solid waste enters the filter tank 401, but the sewage still contains suspended matters with small volume, at the moment, the sewage is filtered and isolated by the filter layer 402, the filtered sewage above the filter layer 402 is extracted by starting the water pump 405 and the water pumping pipe 404, and then is discharged into the sedimentation tank 501 through the water discharging pipe 406, after a large amount of suspended matters are accumulated on the filtering surface of the filter layer 402, the filter layer 402 is rotated and turned over by rotating the turning handle 403, so that the filter layer 402 is backwashed conveniently, and the filtering effect of the filter layer 402 under long-term use is kept conveniently;

Starch sewage in entering sedimentation tank 501 under heating device 502's heating effect for starch in the sewage produces the sediment, when reciprocating case 307 moves, drives reciprocating plate 506 through reciprocating rod 505 and removes, and drives connecting plate 507 through reciprocating plate 506 and remove, drives scraper blade 509 through montant 508 this moment, scrapes the starch sediment that attaches on heating device 502 through scraper blade 509, and when avoiding long-time heating, starch sediment attached on heating device 502 leads to being difficult to clear.

It is noted that 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. Moreover, the terms "comprises," "comprising," 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.

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

Claims

1. A multi-stage potato starch wastewater treatment plant, comprising a treatment tank (1), characterized in that:

A solid waste isolation mechanism (2), the solid waste isolation mechanism (2) comprising an isolation pool (201) and a lifting frame (203), the isolation pools (201) having two in total and both being opened at the left end inside the treatment pool (1), and the lifting frames (203) having two in total and being movably arranged in the two isolation pools (201) respectively;

A solid waste discharge mechanism (3), the solid waste discharge mechanism (3) comprising a movable box (303) and a reciprocating box (307), the movable boxes (303) having two in total and movably arranged at the front and rear ends of the top ends of the right sides of the two isolation tanks (201), respectively, and the reciprocating box (307) being movably arranged between the two movable boxes (303);

A filtering mechanism (4), the filtering mechanism (4) comprising a filtering pool (401), the filtering pool (401) being disposed in the middle of the treatment pool (1);

A heating sedimentation mechanism (5), the heating sedimentation mechanism (5) comprising a sedimentation tank (501) and a reciprocating rod (505), the sedimentation tank (501) being disposed at the right end of the interior of the treatment tank (1), the reciprocating rod (505) comprising two rods, the left ends of which are respectively fixedly mounted at the front and rear ends of the reciprocating box (307) away from the isolation tank (201), the reciprocating rod (505) being movably arranged at the top of the filtering tank (401) and the sedimentation tank (501);

A driving mechanism (6), the driving mechanism (6) comprising a driving shaft (603), the driving shaft (603) being movably mounted in the middle of the top end of the isolation tank (201), and the right end of the driving shaft (603) being movably mounted in a reciprocating box (307);

The solid waste isolation mechanism (2) further comprises a sewage inlet pipe (202), a lifting tooth plate (204), a connecting shaft (205), a movable grille (206) and a baffle (207); the sewage inlet pipes (202) are two in total and are respectively fixedly installed at the left top end of the treatment tank (1) by insertion and are respectively located in the two isolation tanks (201); the lifting tooth plate (204) is two in total and is respectively installed at the left and right ends of the two lifting frames (203) on the side close to each other; the connecting shafts (205) are two in total and are respectively movably installed at one end of the inner bottom end of the two lifting frames (203) away from the driving shaft (603) by bearings; the movable grilles (206) are two in total and are respectively fixedly sleeved on the two connecting shafts (205) by bolts; and the baffles (207) are two in total and are respectively fixedly installed at the middle of the left bottom end of the two lifting frames (203) by bolts;

The solid waste discharge mechanism (3) further comprises a rack (306), a reciprocating groove (308), a tooth groove (309) and a discharge gear (310); the rack (306) comprises two racks and is respectively mounted on one side of the two movable boxes (303) close to the movable grille (206) by sliding motion; the reciprocating groove (308) is arranged in the middle of the left and right sides of the reciprocating box (307); the tooth groove (309) is arranged at the inner top of the reciprocating groove (308); the discharge gear (310) comprises two racks and is respectively fixed by bolts on one end of the two connecting shafts (205) close to the movable box (303); the discharge gear (310) is connected to the rack (306) by meshing motion.

2. A multi-stage potato starch wastewater treatment equipment according to claim 1, characterized in that: the solid waste discharge mechanism (3) comprises a limiting guide rail (301), a fixing plate (302), a spring rod (304) and a first spring (305), the limiting guide rails (301) having two in total and being fixedly mounted on the front and rear sides of the top right sides of the two isolation tanks (201) by bolts, respectively, the fixing plate (302) being fixedly mounted on the ends of the two limiting guide rails (301) away from the driving shaft (603) by bolts, There are two movable boxes (303) and the bottom ends are respectively movably sleeved on the two limit guide rails (301) by snapping, and are movably sleeved on the outside of the fixed plate (302). There are two spring rods (304) and are respectively fixedly installed by bolts in the middle of one side of the two movable boxes (303) away from the fixed plate (302). The two spring rods (304) are movably installed in the fixed plate (302) by insertion. There are two first springs (305) and are respectively movably sleeved on the two spring rods (304).

3. A multi-stage potato starch wastewater treatment equipment according to claim 2, characterized in that: the solid waste discharge mechanism (3) includes a support frame (311), a lifting rod (312) and a second spring (313), there are two support frames (311) and they are respectively fixedly installed in the middle of the top ends of the two movable boxes (303) by bolts, there are two groups of lifting rods (312) and two rods in each group, and they are respectively installed in the two support frames (311) by insertion, the bottom ends of the two groups of lifting rods (312) are respectively fixedly installed on the top ends of the two racks (306) by bolts, there are four second springs (313) and they are respectively movably sleeved on the four lifting rods (312), and are located between the support frame (311) and the rack (306).

4. A multi-stage potato starch wastewater treatment equipment according to claim 3, characterized in that: the filtering mechanism (4) comprises a filtering layer (402), a turning handle (403), a water pump (404), a water pump (405) and a drain pipe (406), the two ends of the filtering layer (402) are installed in the middle of the front and rear sides of the filter tank (401) by insertion, the turning handle (403) is located outside the treatment tank (1) and is fixed to the front end of the filtering layer (402) by bolts, and there are two water pumps (404) and they are inserted into the filter tank (401) and the drain pipe (406) respectively. The water pumps (405) are fixedly installed at the front and rear sides of the filter tank (401) and are located above the filter layer (402). There are two water pumps (405) and they are fixedly installed at the middle of the front and rear sides of the treatment tank (1) by bolts. The two water suction pipes (404) are fixedly installed in the water inlet of the water pump (405) by insertion. There are two drainage pipes (406) and one end close to the water pump (405) is fixedly installed in the water outlet of the water pump (405) by insertion. The end of the drainage pipe (406) away from the water pump (405) is located in the sedimentation tank (501).

5. A multi-stage potato starch wastewater treatment equipment according to claim 4, characterized in that: the heating sedimentation mechanism (5) comprises a heating device (502), a limiting plate (503), a limiting groove (504) and a reciprocating plate (506), the heating device (502) is fixedly installed at the inner bottom end of the sedimentation tank (501) by bolts, there are two limiting plates (503) and they are respectively fixedly installed at the middle of the left and right top ends of the sedimentation tank (501) by bolts, the limiting groove (504) is opened in the middle of the side wall of the limiting plate (503), the reciprocating rod (505) is installed in the limiting groove (504) by insertion, and there are two reciprocating plates (506) and both ends are respectively fixedly sleeved on the two reciprocating rods (505) by bolts, and are respectively located on the side close to the two limiting plates (503).

6. A multi-stage potato starch wastewater treatment equipment according to claim 5, characterized in that: the heating sedimentation mechanism (5) includes a connecting plate (507), a vertical rod (508) and a scraper (509), the connecting plates (507) have two pieces and both ends are fixedly installed on the front and rear bottom ends of the two reciprocating plates (506) by bolts, the vertical rods (508) have two groups and each group has a plurality of rods, and the top ends are evenly fixedly installed on the bottom ends of the two connecting plates (507) by bolts, the scraper (509) has two pieces and is fixedly installed on the bottom ends of the two groups of vertical rods (508) by bolts, and the scraper (509) is installed on the top of the heating device (502) by sliding movement.

7. A multi-stage potato starch wastewater treatment device according to claim 6, characterized in that: the driving mechanism (6) comprises a mounting plate (601), a driving motor (602), a lifting gear (604) and a reciprocating gear (605), the mounting plate (601) is fixedly mounted on the middle of the left top end of the treatment tank (1) by bolts, the driving motor (602) is fixedly mounted on the top end of the mounting plate (601) by bolts, and the driving shaft (603) and the output shaft of the driving motor (602) are screwed together. The lifting gears (604) are fixedly connected by bolts, and there are two lifting gears (604) which are respectively fixedly installed at the two ends of the driving shaft (603) by bolts and are respectively located between the left and right lifting gear plates (204). The lifting gears (604) are connected to the two lifting gear plates (204) on the front and rear sides by meshing activities. The reciprocating gear (605) is fixedly installed at one end of the driving shaft (603) located in the reciprocating box (307) by bolts, and the reciprocating gear (605) is connected to the tooth groove (309) by meshing activities.