CN115300981A

CN115300981A - Iron-containing wastewater treatment device

Info

Publication number: CN115300981A
Application number: CN202211238435.0A
Authority: CN
Inventors: 陈奎
Original assignee: Jiangsu Saimusi Environmental Protection Technology Co ltd
Current assignee: Jiangsu Saimusi Environmental Protection Technology Co ltd
Priority date: 2022-10-11
Filing date: 2022-10-11
Publication date: 2022-11-08

Abstract

The invention relates to a treatment device for iron-containing wastewater, which comprises a power mechanism for providing power, an adsorption mechanism for collecting iron slag in the wastewater, a filtering mechanism and a power switching mechanism for switching the states of the adsorption mechanism and the filtering mechanism, wherein the power mechanism is arranged at the upper end of an external mechanism; adsorption apparatus constructs including the magnetic force mount, and the upper end is joined in marriage to encircle is installed to magnetic force mount upper end axle center position, and the upper end is joined in marriage and is closed the ring upper end and pass through the solid fixed ring cooperation external mechanism in upper end for solve need artifical maintenance and often shut down and cause work efficiency low and carry out the technical problem that strikes fatigue to the filter plate in common iron fillings waste water treatment.

Description

Iron-containing wastewater treatment device

Technical Field

The invention relates to the field of wastewater treatment, in particular to a treatment device for iron-containing wastewater.

Background

Waste water treatment equipment on the market is of a great variety, equipment is complicated various, but most waste water treatment device treatment effeciency is not ideal, only simple one-level filters, the waste water after handling still is not conform to the wastewater discharge standard that the country formulated, contain a large amount of iron fillings in the waste water of industry factory building emission simultaneously, traditional processing apparatus can not fully filter iron fillings, cause filter equipment to block up very easily, recycle can not be carried out simultaneously, and current waste water treatment equipment can not be timely clear up the filter screen, lead to filter screen face to block up easily, influence the filter effect.

Chinese invention patent application No. 201911206046.8 discloses a prevent blockking up processing apparatus of iron content acid waste water, including retort and sedimentation tank, the retort side is close to the top punishment and does not is provided with first feed inlet and second feed inlet, first feed inlet set up in the retort both sides with the second feed inlet relatively, install the stirring rake in the retort, the aeration pipe has been laid to the bottom in the retort, the discharge gate has been seted up to the retort bottom, discharge gate one side is provided with the leakage fluid dram, discharge gate department installs the screw conveyer pump, the screw conveyer pump extends to the sedimentation tank, the screw conveyer pump send the ground paste extremely the sedimentation tank, but in prior art processing, utilize the mode of precipitation to carry out iron fillings and handle, the ageing of precipitation is influenced by solution environment, and the sediment filter screen needs to be collected and carry out follow-up clearance maintenance, need cause the middle-end to the emission process, has influenced work efficiency and has caused the frequent dismantlement of filter screen to take place the damage in frequent break-make process.

Disclosure of Invention

The invention provides a treatment device for iron-containing wastewater, which aims to solve the technical problems of low working efficiency and impact fatigue on a filter plate caused by manual maintenance and frequent shutdown in common iron scrap wastewater treatment.

The invention relates to a treatment device for iron-containing wastewater, which adopts the following technical scheme: the waste water treatment device comprises a power mechanism for providing power, an adsorption mechanism for collecting iron slag in waste water, a filtering mechanism and a power switching mechanism for switching the states of the adsorption mechanism and the filtering mechanism, wherein the power mechanism is arranged at the upper end of an external mechanism, the power output end of the power mechanism is connected with the power switching mechanism and a central flow dividing mechanism, the power switching mechanism is divided into three groups, each group of the power switching mechanism is provided with one group of adsorption mechanisms, the adsorption mechanisms are fixed in the external mechanism, the central flow dividing mechanism is arranged between the adsorption mechanisms in a central position, and the filtering mechanism is arranged outside the adsorption mechanisms in a surrounding manner; adsorption equipment constructs including the magnetic force mount, the upper end cooperation ring is installed to magnetic force mount upper end axle center position, the cooperation of upper end cooperation ring upper end through the solid fixed ring in upper end outside mechanism, the outer disc of upper end cooperation ring is located the shaping has the upper end stopper between the solid fixed ring in upper end, the cooperation of upper end stopper is connected the solid fixed ring in upper end medial surface fashioned upper end guide way in upper end, another the cooperation of magnetic force mount is installed filtering mechanism inboard bottom, install magnetic plate and back support column between the magnetic force mount, just the magnetic plate with back support column subtend installation.

Further, filter mechanism includes the filter screen seat, two from top to bottom the filter screen seat inboard evenly installs three filter screen frame, the filter screen frame outside is the circle form and installs the filter screen, filter screen seat lower extreme with install waterproof ring between the external mechanism, the lower extreme cooperation ring is installed to filter screen seat bottom, the lower extreme cooperation ring outside with the cooperation has the solid fixed ring of lower extreme between the external mechanism, the lower extreme cooperation ring bottom with install the spring between the filter mechanism, the lower extreme cooperation ring with the shaping has the lower extreme stopper between the solid fixed ring of lower extreme, the shaping has the lower extreme guide way of cooperation lower extreme stopper on the solid fixed ring inboard of lower extreme, the lower extreme guide way forms for the cooperation of the arc groove of three cross-section 120 degrees, and through vertical groove UNICOM between every section arc groove, is located every section arc groove and is close to the top position and installs the extrusion piece, the extrusion piece inlay in the solid fixed ring of lower extreme, the arc shell fragment is installed to the extrusion piece bottom, the solid fixed ring of lower extreme goes up through being connected with three lockpin, just the lockpin with through spring coupling between the solid fixed ring of lower extreme, each run through the cooperation pole from top to bottom in the filter screen frame, cooperation pole, the mesh of magnetic force cooperation rack with the shaping.

Furthermore, the power switching mechanism comprises a power rod, a bottom power spline is installed at the bottom of the power rod, and a spline groove matched with the bottom power spline is formed in the bottom of the inner side of the lower end matching ring.

Furthermore, the central shunting mechanism comprises a transmission pipe, the lower end of the transmission pipe is fixedly connected with a shunting rotating cylinder, the outer side of the upper end of the transmission pipe is matched with the power mechanism, three water outlet holes are uniformly formed in the outer circular surface of the shunting rotating cylinder, a shaft center of the lower end of the shunting rotating cylinder is connected with a spiral water feeding blade, and a bottom fixing cylinder is installed on the outer side of the spiral water feeding blade.

Furthermore, the external mechanism comprises an upper end sealing cover, an external sealing cylinder is installed at the lower end of the upper end sealing cover, three collecting tanks are installed at the bottom end inside the external sealing cylinder, and a central partition plate is fixed between every two groups of filter screens inside the external sealing cylinder.

Furthermore, the power mechanism comprises a motor, the lower end of the motor is fixed at the upper end of the upper end sealing cover through a motor frame, a driving gear is mounted at the power output end of the motor, a shunt gear is matched with one end of the driving gear, the inner side and the outer side of the shunt gear are respectively matched with the power rod and the transmission pipe through driven gears, and the driven gears on the three power rods are matched through external toothed rings.

Furthermore, the rear supporting column is close to the upper side and runs through and is installed with a centrifugal column, the piece of knocking is installed to centrifugal column outside one end, it corresponds to strike the piece the screen frame position.

The beneficial effects of the invention are: according to the invention, the adsorption mechanism and the filtering mechanism are matched, the filter screens can be switched and cleaned after being fully collected, the process does not need to be stopped, the water hammer effect and water flow impact can not occur, scrap iron can be effectively removed and collected by utilizing a quick separation structure and knocking, and the integral working efficiency and the stable state of the structure are improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic configuration diagram of an embodiment of an apparatus for treating iron-containing wastewater according to the present invention;

FIG. 2 is a schematic view showing an internal structure of an external sealing cylinder of an embodiment of an apparatus for treating iron-containing wastewater according to the present invention;

FIG. 3 is a schematic structural diagram illustrating a structure of a filter screen and a magnetic plate of an embodiment of an apparatus for treating iron-containing wastewater according to the present invention;

FIG. 4 is a top view of the inside of an outer sealing cylinder of an embodiment of an apparatus for treating iron-containing wastewater according to the present invention;

FIG. 5 is a schematic structural view of a magnetic force fixing frame and a magnetic force plate in accordance with an embodiment of the present invention;

FIG. 6 is a partial detailed view of a lower end fixing ring of an embodiment of the iron-containing wastewater treatment apparatus of the present invention;

FIG. 7 is a schematic view showing a fitting relationship between a lower end fitting ring and a lower end fixing ring of an embodiment of an apparatus for treating iron-containing wastewater according to the present invention;

FIG. 8 is a schematic structural view showing a lower end engagement ring and a lock pin engagement relationship in an embodiment of an apparatus for treating iron-containing wastewater according to the present invention;

FIG. 9 is a schematic structural view showing the positional relationship of lock pins of an embodiment of the apparatus for treating iron-containing wastewater of the present invention;

FIG. 10 is a partial detailed view of a locking pin of an embodiment of the apparatus for treating wastewater containing iron of the present invention;

FIG. 11 is a schematic view showing the structure of the fit relationship between the fit rod and the rhinoceros fixing frame of the embodiment of the iron-containing wastewater treatment apparatus of the present invention;

FIG. 12 is a schematic structural view showing a matching relationship between a knocking block and a screen frame in an embodiment of an apparatus for treating iron-containing wastewater according to the present invention;

FIG. 13 is a schematic structural view of a central flow-dividing mechanism of an embodiment of the apparatus for treating iron-containing wastewater of the present invention;

FIG. 14 is a schematic view showing the fitting relationship between the upper fixing ring and the upper fitting ring of the iron-containing wastewater treatment apparatus according to the embodiment of the present invention.

In the figure: 1. a power mechanism; 2. a power switching mechanism; 3. a central flow distribution mechanism; 4. an external mechanism; 5. an adsorption mechanism; 6. a filtering mechanism; 11. an electric motor; 12. a driving gear; 13. a shunt gear; 14. a driven gear; 15. an outer toothed ring; 21. a power rod; 22. a bottom power spline; 23. a spline groove; 24. a lower end matching ring; 31. a conveying pipe; 32. a shunt rotating cylinder; 33. a bottom fixed cylinder; 34. a spiral water feeding blade; 41. an upper end sealing cover; 42. an outer sealing cylinder; 43. collecting tank; 44. a central partition; 51. an upper end fixing ring; 52. the upper end is matched with a ring; 53. a magnetic force fixing frame; 54. a magnetic plate; 55. a rear support column; 56. a centrifugal column; 57. knocking the block; 58. an upper end guide groove; 59. an upper end limiting block; 61. filtering with a screen; 62. a waterproof ring; 63. a filter screen seat; 64. a screen frame; 65. a lower end fixing ring; 66. a lower end limiting block; 67. a lock pin; 68. extruding the block; 69. a lower end guide groove; 610. a mating rod.

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.

The embodiment of the treatment device for the iron-containing wastewater comprises a power mechanism 1 for providing power, an adsorption mechanism 5 for collecting iron slag in the wastewater, a filtering mechanism 6 and a power switching mechanism 2 for switching the states of the adsorption mechanism 5 and the filtering mechanism 6, wherein the power mechanism 1 is arranged at the upper end of an external mechanism 4, the power output end of the power mechanism 1 is connected with the power switching mechanism 2 and a central shunting mechanism 3, the power switching mechanism 2 is divided into three groups, one group of adsorption mechanisms 5 is arranged on each group, the adsorption mechanisms 5 are fixed in the external mechanism 4, the central shunting mechanism 3 is arranged at the center position between the adsorption mechanisms 5, and the filtering mechanism 6 is arranged outside the adsorption mechanisms 5 in a surrounding manner; the adsorption mechanism 5 includes a magnetic fixing frame 53, an upper end fitting ring 52 is installed on the upper end axis of the magnetic fixing frame 53, the upper end of the upper end fitting ring 52 is fitted with the external mechanism 4 through the upper end fixing ring 51, as shown in fig. 14, an upper end stopper 59 is formed on the outer circumferential surface of the upper end fitting ring 52 between the upper end fixing rings 51, the upper end stopper 59 is fitted and connected with an upper end guide groove 58 formed on the inner side surface of the upper end fixing ring 51, another magnetic fixing frame 53 is fitted and installed on the inner bottom of the filtering mechanism 6, a magnetic plate 54 and a rear support column 55 are installed between the magnetic fixing frames 53, the magnetic plate 54 and the rear support column 55 are installed in opposite directions, the magnetic plate 54 and the rear support column 55 are fixed by the magnetic fixing frame 53 and installed in opposite directions, when in initial adsorption, one side of the magnetic plate 54 faces one side of the shunt rotating cylinder 32, therefore, the water flow sprayed by the rotation of the shunt rotary cylinder 32 is uniformly sprayed on the filter screen 61 corresponding to one side of the shunt rotary cylinder 32, and the iron filings can be adsorbed outside the filter screen 61 due to the magnetic force of the magnetic plate 54, in the process of full stack switching, the magnetic plate 54 can be switched by 120 degrees along with the filter screen 61 by the clamping position of the matching rod 610, meanwhile, the magnetic fixing frame 53 is rotationally moved by the upper end guide groove 58 between the upper end matching ring 52 and the magnetic fixing frame 53 under the guide of the upper end limiting block 59, when the upper end guide groove 58 moves to the top end of the arc groove of the upper end limiting block 59, the upper end spring is reset, and when the magnetic fixing frame 53 is reset, the centrifugal column 56 and the knocking block 57 are thrown out by centrifugal force, thereby knocking on the filter screen frame 64, vibrating the filter screen 61, and simultaneously, the adsorbed iron filings lose the measured force and fall down and are collected in the collecting groove 43.

Further, as shown in fig. 5, the filtering mechanism 6 includes a filtering net base 63, three filtering net frames 64 are uniformly installed on the inner sides of the upper and lower filtering net bases 63, a filtering net 61 is installed on the outer side of each filtering net frame 64 in a circular shape, a waterproof ring 62 is installed between the lower end of each filtering net base 63 and the external mechanism 4, as shown in fig. 6 and 7, a lower end fitting ring 24 is installed at the bottom of the lower end filtering net base 63, a lower end fixing ring 65 is fitted between the outer side of the lower end fitting ring 24 and the external mechanism 4, a spring is installed between the bottom of the lower end fitting ring 24 and the filtering mechanism 6, a lower end limiting block 66 is formed between the lower end fitting ring 24 and the lower end fixing ring 65, a lower end guide groove 69 fitted with the lower end limiting block 66 is formed on the inner side of the lower end fixing ring 65, as shown in fig. 9, the lower end guide groove 69 is formed by fitting three arc grooves with a cross section of 120 degrees, and each arc groove is communicated with a vertical groove, an extrusion block 68 is arranged at the position, close to the top end, of each arc groove, the extrusion block 68 is embedded in a lower end fixing ring 65, an arc elastic sheet is arranged at the bottom of the extrusion block 68, three lock pins 67 are connected to the lower end fixing ring 65 in a penetrating manner, and the lock pins 67 are connected with the lower end fixing ring 65 through springs, as shown in fig. 11, a matching rod 610 is arranged in each filter net frame 64 in a penetrating manner from top to bottom, the lower end of the matching rod 610 is matched with the filter net frame 64 through the springs, grooves meshed with the matching rod 610 are formed in the ground of a magnetic force fixing frame 53, when iron filings on the inner side of the filter net 61 subjected to magnetic force are adsorbed on the outer side of the filter net 61, the filter net 61 sinks under the gravity of the iron filings, after the iron filings gravity is added on the filter net 61 to sufficiently extrude the lock pins 67, the filter net 61 drives the lower end matching ring 24 to rapidly fall through a filter net seat 63, and simultaneously a lower end limiting block 66 formed outside the lower end matching ring 24 rapidly falls at the vertical part of the lower end guiding groove 69, after falling, the fitting rod 610 is connected with the filter screen holder 64 and the magnetic force fixing holder 53 in a clamping mode, the spline groove 23 on the inner side of the lower end fitting ring 24 is matched with the bottom power spline 22 on the power rod 21, the power rod 21 drives the lower end fitting ring 24 and the filter screen holder 63 to rotate through the bottom power spline 22 and the spline groove 23, in the rotating process, the lower end limiting block 66 inside the lower end fitting ring 24 is guided by the lower end guide groove 69, the filter screen holder 63 and the filter screen 61 are driven to integrally rotate and rise, after the filter screen holder 63 rotates for 118 degrees, the lower end fitting ring 24 rises to the position of the extrusion block 68, at the moment, the lower end fitting ring 24 is separated from the bottom power spline 22, under the simultaneous action of inertia and the pushing of the bottom spring piece of the extrusion block 68, the lower end limiting block 66 drives the lower end fitting ring 24 to reach the top end, at the moment, the upper end fitting ring 52 drives the upper end guide groove 58 to also reach the top end limiting block 59, the fitting rod 610 is extruded by the spring to be separated from the magnetic force fixing holder 53, and the magnetic force fixing holder 53 is rotated and reset.

Further, as shown in fig. 6 and 7, the power switching mechanism 2 includes a power rod 21, a bottom power spline 22 is mounted at the bottom of the power rod 21, a spline groove 23 for engaging with the bottom power spline 22 is formed at the bottom inside a lower end engaging ring 24, and the power rod 21 is used for transmitting the power of the driven gear 14 to the bottom power spline 22.

Further, as shown in fig. 1 and 13, the central shunting mechanism 3 includes a transmission pipe 31, a shunting rotating cylinder 32 is fixedly connected to the lower end of the transmission pipe 31, the outer side of the upper end of the transmission pipe 31 cooperates with the power mechanism 1, three water outlet holes are uniformly formed on the outer circular surface of the shunting rotating cylinder 32, a spiral water feeding blade 34 is connected to the lower end of the shunting rotating cylinder 32, a bottom fixing cylinder 33 is installed on the outer side of the spiral water feeding blade 34, the transmission pipe 31 is rotated under the power of the driven gear 14, and simultaneously drives the water flow to rotate and spray on the filter screen 61, and simultaneously drives the bottom spiral water feeding blade 34 to rotate, so as to pump up the iron slag whose bottom has not been filtered to spray again.

Further, as shown in fig. 1, the external mechanism 4 includes an upper end sealing cover 41, an external sealing cylinder 42 is installed at the lower end of the upper end sealing cover 41, three collecting grooves 43 are installed at the bottom end inside the external sealing cylinder 42, a central partition plate 44 is fixed inside the external sealing cylinder 42 and located between each group of filter screens 61, and the filter screens 61 collect scrap iron which is separated in a rotating manner and fall inside the collecting grooves 43 for collection.

Further, as shown in fig. 1, the power mechanism 1 includes a motor 11, a lower end of the motor 11 is fixed at an upper end of an upper end sealing cover 41 through a motor frame, a driving gear 12 is installed at a power output end of the motor 11, one end of the driving gear 12 is matched with a shunt gear 13, an inner side and an outer side of the shunt gear 13 are respectively matched with the power rod 21 and the transmission pipe 31 through a driven gear 14, and the driven gears 14 on the three power rods 21 are matched through an external toothed ring 15.

Further, as shown in fig. 12, a centrifugal column 56 is installed through the rear support column 55 near the upper side, a knocking block 57 is installed at one end of the outer side of the centrifugal column 56, and the knocking block 57 corresponds to the position of the strainer holder 64.

In conclusion, when the conveying pipe 31 and the diversion rotary cylinder 32 uniformly spray the wastewater on the filter screen 61, the filter screen 61 on the side of the magnetic force of the magnetic plate 54 adsorbs and filters the iron filings, the water flow is discharged from the inner bottom through the filter screen 61, the filter screen 61 falls down after being full of the water and drives the lower end matching ring 24 and the lower end fixing ring 65 to rotate for 120 degrees in a matching way through the power of the power rod 21, the filter screen seat 63 is separated from the magnetic fixing frame 53 after rotation, the filter screen seat is reset quickly, the iron filings on the filter screen 61 on the side of the iron filings are absorbed while the magnetic force is lost and the iron filings fall off, meanwhile, the knocking block 57 is thrown out of the knocking filter screen frame 64 by the centrifugal force, the vibration is transmitted to the filter screen 61, the auxiliary iron filings fall off, the magnetic force is provided for the filter screen 61 on the next side by the magnetic plate 54 after reset again, part of the iron filings fall to the inner bottom of the upper end sealing cover 41 in the process, and the wastewater is pumped up again for filtering through the rotary spiral water feeding blade 34.

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

Claims

1. A processing apparatus of iron-containing wastewater, comprising a power mechanism (1) for providing power, characterized in that: the waste water recycling device is characterized by further comprising an adsorption mechanism (5) used for collecting iron slag in waste water, a filtering mechanism (6) and a power switching mechanism (2) used for switching the states of the adsorption mechanism (5) and the filtering mechanism (6), wherein the power mechanism (1) is installed at the upper end of an external mechanism (4), the power output end of the power mechanism (1) is connected with the power switching mechanism (2) and a central shunting mechanism (3), the power switching mechanism (2) is divided into three groups, a group of adsorption mechanisms (5) are installed on each group, the adsorption mechanisms (5) are fixed in the external mechanism (4), the central shunting mechanism (3) is installed in the center among the adsorption mechanisms (5), and the filtering mechanism (6) is installed outside the adsorption mechanisms (5) in a surrounding mode; adsorption apparatus constructs (5) including magnetic mount (53), upper end cooperation ring (52) are installed to magnetic mount (53) upper end axle center position, upper end cooperation ring (52) upper end is through the solid fixed ring in upper end (51) cooperation outside mechanism (4), the outer disc of upper end cooperation ring (52) is located the shaping has upper end stopper (59) between the solid fixed ring in upper end (51), upper end stopper (59) cooperation is connected the solid fixed ring in upper end (51) medial surface fashioned upper end guide way (58), another magnetic mount (53) cooperation is installed filtering mechanism (6) inboard bottom, install magnetic plate (54) and back support post (55) between magnetic mount (53), just magnetic plate (54) with back support post (55) subtend installation.

2. The apparatus for treating iron-containing wastewater according to claim 1, wherein: the filtering mechanism (6) comprises a filter screen seat (63), three filter screen frames (64) are uniformly installed on the inner sides of the upper filter screen seat (63) and the lower filter screen frames (63), a filter screen (61) is installed on the outer side of each filter screen frame (64) in a circular shape, a waterproof ring (62) is installed between the lower end of each filter screen seat (63) and the outer mechanism (4), a lower end matching ring (24) is installed at the bottom of each filter screen seat (63), a lower end matching ring (24) is installed on the outer side of each filter screen frame (24) and a lower end fixing ring (65) is installed between the outer mechanisms (4) in a matching mode, a spring is installed between the lower end matching ring (24) and the filtering mechanism (6), a lower end matching ring (24) is connected with an arc groove of three cross sections (120 degrees) in a matching mode, each section of the arc groove is communicated with each other through a vertical arc groove, each section of the arc groove is located at the top end of each section of the arc groove, a block (68) is installed at the position, each section of the arc groove is embedded with a locking block (68), and the spring is connected with a locking pin (67) through an extrusion block (67), each go up down to run through in strainer rack (64) and install cooperation pole (610), cooperation pole (610) lower extreme passes through spring fit strainer rack (64), magnetic force mount (53) ground shaping has the groove with cooperation pole (610) meshing.

3. The apparatus for treating iron-containing wastewater according to claim 2, wherein: the power switching mechanism (2) comprises a power rod (21), a bottom power spline (22) is installed at the bottom of the power rod (21), and a spline groove (23) matched with the bottom power spline (22) is formed in the bottom of the inner side of a lower end matching ring (24).

4. The apparatus for treating iron-containing wastewater according to claim 3, wherein: the central flow distribution mechanism (3) comprises a transmission pipe (31), a flow distribution rotating cylinder (32) is fixedly connected to the lower end of the transmission pipe (31), the outer side of the upper end of the transmission pipe (31) is matched with the power mechanism (1), three water outlet holes are uniformly formed in the outer circular surface of the flow distribution rotating cylinder (32), a spiral water feeding blade (34) is connected to the axis position of the lower end of the flow distribution rotating cylinder (32), and a bottom fixing cylinder (33) is installed on the outer side of the spiral water feeding blade (34).

5. The apparatus of claim 4, wherein: outside mechanism (4) include the sealed lid of upper end (41), an outside seal section of thick bamboo (42) is installed to the sealed lid of upper end (41) lower extreme, three collecting vat (43) are installed to the inside bottom of an outside seal section of thick bamboo (42), inside being located of an outside seal section of thick bamboo (42) is fixed with central baffle (44) between every group filter screen (61).

6. The apparatus of claim 5, wherein: the power mechanism (1) comprises a motor (11), the lower end of the motor (11) is fixed to the upper end of an upper end sealing cover (41) through a motor frame, a driving gear (12) is installed at the power output end of the motor (11), a shunt gear (13) is matched with one end of the driving gear (12), the inner side and the outer side of the shunt gear (13) are matched with the power rod (21) and the transmission pipe (31) through a driven gear (14), and the driven gears (14) on the three power rods (21) are matched with each other through an external toothed ring (15).

7. The apparatus for treating iron-containing wastewater according to claim 2, wherein: rear support column (55) are close to the upside and run through and install centrifugal column (56), centrifugal column (56) outside one end is installed and is strikeed piece (57), it corresponds to strike piece (57) strainer frame (64) position.