CN114560554A

CN114560554A - Rotary disk aerator for river sewage treatment and application method thereof

Info

Publication number: CN114560554A
Application number: CN202210242616.4A
Authority: CN
Inventors: 乔利敏; 凌建军; 刘会平; 何卫莲; 张冬; 闾雪娇
Original assignee: Jiangsu Lingzhi Environmental Protection Co ltd; Lingzhi Water Treatment Equipment Henan Co ltd; LINGZHI ENVIRONMENTAL PROTECTION CO Ltd
Current assignee: Jiangsu Lingzhi Environmental Protection Co ltd; Lingzhi Water Treatment Equipment Henan Co ltd; LINGZHI ENVIRONMENTAL PROTECTION CO Ltd
Priority date: 2022-03-11
Filing date: 2022-03-11
Publication date: 2022-05-31
Anticipated expiration: 2042-03-11
Also published as: CN114560554B

Abstract

The invention discloses a rotary disk aerator for river sewage treatment and a using method thereof, belonging to the technical field of rotary disk aerators, and the rotary disk aerator for river sewage treatment comprises a floating support, a threaded slide block, a connecting slide block, a limiting rod, a first guide post and a protective track, wherein the top end of the floating support is fixedly connected with an aeration motor, the output end of the aeration motor is provided with an aeration rotary disk, the top end of the floating support is fixedly connected with a collecting box at one side of the aeration motor, the rotary disk aerator for river sewage treatment and the using method thereof are characterized in that a lifting base is arranged, the rotary disk rotates, a movable pore plate is driven by the rotary guide post to vertically slide, the movable pore plate drives a lifting post to vertically slide, so that the lifting post vertically slides, the folding frame is driven by the fixed pore plate to fold, the folding frame drives the lifting base to vertically lift by the lifting pore plate, the lifting base lifts to drive the water quality detector to vertically lift, so that the water quality detection operation of different depths is realized.

Description

Rotary disk aerator for river sewage treatment and application method thereof

Technical Field

The invention relates to the technical field of rotary disk aerators, in particular to a rotary disk aerator for river sewage treatment and a using method thereof.

Background

The topic about water pollution is continuously raised, people arouse the consciousness of environmental protection, the degree of concern about the water pollution is unprecedented, aeration equipment is needed to be used for improving the water source quality, the aeration equipment is the most main mechanical equipment in an oxidation ditch sewage treatment system and has the functions of oxygenation, propulsion, mixing and the like, wherein a horizontal shaft aerator is the most researched and widely applied oxidation ditch oxygenation equipment and comprises a rotary brush aerator and a disc aerator, and the horizontal shaft aerator has unique functions on the functions of pushing flow and oxygen flushing mixing, can prevent activated sludge flocs from being strongly sheared in operation, has high removal efficiency and is flexible in oxygenation regulation.

However, the problem that the water quality of different depths of a river channel cannot be detected by the conventional rotary disc aerator during use is solved, the river channel cannot be comprehensively detected and operated, the problem that the conventional rotary disc aerator cannot protect and operate during use is solved, the aeration rotary disc in the rotary disc aerator is easily damaged, the problem that the conventional rotary disc aerator is difficult to treat weeds during use is solved, the rotary disc aerator is low in working efficiency and cannot meet the requirements of people, and therefore the rotary disc aerator for river channel sewage treatment and the using method thereof are needed.

Disclosure of Invention

The invention aims to solve the problems that water quality at different depths of a river channel cannot be detected, a rotary disk aerator cannot be protected and is difficult to weed treatment in the prior art, and provides the rotary disk aerator for river channel sewage treatment and the using method thereof.

In order to achieve the purpose, the invention adopts the following technical scheme:

a rotary disk aerator for river sewage treatment comprises a floating bracket, a threaded slide block, a connecting slide block, a limiting rod, a first guide post and a protective track, the top end of the floating bracket is fixedly connected with an aeration motor, the output end of the aeration motor is provided with an aeration turntable, the top end of the floating bracket is fixedly connected with a collecting box at one side of the aeration motor, the top end of the collecting box is fixedly connected with a working motor, the output end of the working motor is provided with a threaded rod for driving the threaded slide block to horizontally slide, the side wall of the threaded sliding block is screwed with a connecting rod for driving the connecting sliding block to slide along the limiting rod, the side wall of the connecting slide block is fixedly connected with a connecting pore plate used for driving the first guide post to slide along the protective track, the bottom end of the first guide pillar is rotatably connected with a protection plate, and one side, far away from the first guide pillar, of the top end of the protection plate is rotatably connected with a second guide pillar in sliding connection with the protection track.

Preferably, one side of the aeration motor, which is far away from the collection box, is located on a top fixedly connected with control console of the floating support, the outer wall of the floating support is fixedly connected with an interception plug, the outer wall of the interception plug is fixedly connected with a lifting mechanism, the bottom end of the threaded sliding block is located on one side of the collection box and is fixedly connected with a turnover mechanism, the outer wall of the turnover mechanism is rotatably connected with a transmission frame, and the outer wall of the transmission frame is fixedly connected with a cutting mechanism.

Preferably, the connecting slide blocks are arranged in two groups, the connecting slide blocks form a sliding structure with the limiting rods through the threaded slide blocks, the connecting rods and the limiting rods, the first guide pillars form a sliding structure with the protective track through the connecting slide blocks and the connecting hole plates, and the protective track is in a step shape.

Preferably, the lifting mechanism comprises a lifting motor, a rotating disc, a rotating guide post, a movable pore plate, a lifting post, a folding frame, a fixed pore plate, a lifting base, a lifting pore plate and a water quality detector, the outer wall of the lifting mechanism is fixedly connected with the lifting motor, and the output end of the lifting motor is provided with a rotating disc, the edge of the outer wall of the rotating disc is provided with a rotating guide post, and the outer wall of the rotary guide post is movably connected with a movable pore plate which is connected with the outer wall of the lifting mechanism in a sliding way, one end of the movable pore plate is fixedly connected with a lifting post, the bottom end of the lifting column extends to the lower part of the lifting mechanism and is screwed with a folding frame, a fixed orifice plate is arranged at the connecting part of the top end of the folding frame and the bottom end of the lifting mechanism, the bottom end of the folding frame is movably connected with a lifting base, and the connection part of the lifting base and the folding frame is provided with a lifting pore plate, and the bottom end of the lifting base is fixedly connected with a water quality detector.

Preferably, the movable pore plate forms a lifting structure with the lifting mechanism through the rotating disc and the rotating guide column, the folding frame forms a folding structure with the lifting mechanism through the lifting column and the fixed pore plate, and the lifting base forms a lifting structure with the lifting mechanism through the folding frame and the lifting pore plate.

Preferably, the turnover mechanism comprises a sliding pore plate, a turnover guide pillar, a turnover chute and a limiting chute, the bottom end of the turnover mechanism is fixedly connected with the sliding pore plate which is in sliding connection with the outer wall of the collecting box, the inner wall of the sliding pore plate is provided with the turnover guide pillar which is in sliding connection with the outer wall of the conveying frame, the turnover chute is arranged at the connecting part of the turnover guide pillar and the conveying frame, and the limiting chute is arranged at the connecting part of the turnover guide pillar and the collecting box.

Preferably, the overturning guide pillar forms a lifting structure through the sliding hole plate and the limiting sliding groove, the sliding hole plate is bent, and the conveying frame forms a swinging structure through the overturning guide pillar, the overturning sliding groove and the collecting box.

Preferably, cutting mechanism includes output motor, pivot, conveyer belt, rotation cam, lifting slide, fixed cutter, spacing groove and activity cutter, cutting mechanism's outer wall fixedly connected with output motor, the pivot is installed to output motor's output, and the outer wall of pivot is provided with the conveyer belt of connecing soon with the conveying frame outer wall, the outer wall of pivot is located one side fixedly connected with rotation cam of conveyer belt, and the top of rotating the cam closely laminates and has lifting slide, lifting slide's lateral wall sliding connection has and conveys the fixed cutter of frame outer wall fixedly connected with, and the spacing groove has been seted up with lifting slide's junction site to fixed cutter, lifting slide one end fixedly connected with and fixed cutter sliding connection's activity cutter.

Preferably, the lifting slide block forms a lifting structure through the rotating cam and the limiting groove, the fixed cutters are provided with two groups, and the fixed cutters are attached to the movable cutters.

The scheme also provides a rotary disk aerator for river sewage treatment and a using method thereof, wherein the method comprises the following steps:

s1, when the device is used, firstly, water quality detection operation is carried out on different depths of a river channel, in a lifting mechanism, a lifting motor works to drive a rotating disc to rotate, the rotating disc rotates to drive a movable pore plate to vertically slide along the outer wall of the lifting mechanism through a rotating guide pillar, the movable pore plate drives a lifting column to vertically slide, so that the lifting column vertically slides to drive a folding frame to fold through a fixed pore plate, the folding frame is folded to drive a lifting base to vertically lift through the lifting pore plate, the lifting base lifts to drive a water quality detector to vertically lift, and the water quality detection operation on the different depths is realized;

s2, then, the water quality detector works to detect the water quality of the river channel, when the water quality is detected to be not in accordance with the standard, the control console controls the protection plates to open and close, the working motor works to drive the threaded slide block to slide along the outer wall of the collecting box through the threaded rod, the threaded slide block slides to drive the two groups of connecting slide blocks to relatively slide along the limiting rod through the two groups of connecting rods, the connecting slide block drives the first guide pillar to slide along the inner wall of the protection track through the connecting hole plate, the first guide pillar drives the protection plates to slide along the protection track through the second guide pillar, the opening and closing operation of the protection plates is realized through the relative sliding of the two groups of protection plates, and the maintenance operation of the aeration turntable is convenient;

s3, driving a turnover mechanism to slide along the outer wall of the collecting box while the threaded slide block slides, driving a turnover guide pillar to vertically slide along a limiting sliding groove by the turnover mechanism through a bent sliding hole plate, so that the turnover guide pillar slides to drive a conveyor belt on the outer wall of the conveying frame to swing through the turnover sliding groove, protecting the conveyor belt, and preventing the conveyor belt from rusting;

s4, finally, the aeration motor works to drive the aeration turntable to rotate, so as to realize aeration purification operation of the river channel, then the water flow in the river channel enters the conveying frame, then, the cutting operation is carried out on weeds in the water flow, in the cutting mechanism, the output motor works to drive the rotating shaft to rotate, the rotating shaft rotates to drive the conveying belt to work, the weeds are conveyed to the conveying belt, meanwhile, the rotating shaft rotates to drive the rotating cam to synchronously rotate, the rotating cam rotates to drive the lifting slide block to vertically slide along the inner wall of the limiting groove, the lifting slide block drives the movable cutter to vertically slide along the outer wall of the fixed cutter, through relative sliding of the movable cutter and the fixed cutter, the cutting operation of the weeds is realized, then the water flow in the river channel works through the aeration turntable, and the river channel water purification operation is realized.

Compared with the prior art, the invention provides a rotary disk aerator for river sewage treatment, which has the following beneficial effects:

1. according to the rotary disk aerator for river sewage treatment, the lifting base is arranged, the rotary disk rotates to drive the movable pore plate to vertically slide along the outer wall of the lifting mechanism through the rotary guide pillar, the movable pore plate drives the lifting column to vertically slide, so that the lifting column vertically slides to drive the folding frame to fold through the fixed pore plate, the folding frame drives the lifting base to vertically lift through the lifting pore plate, the lifting base lifts to drive the water quality detector to vertically lift, and water quality detection operation at different depths is realized;

2. the rotary disk aerator for river sewage treatment is provided with the connecting slide blocks, and the threaded slide blocks slide to drive the two groups of connecting slide blocks to relatively slide along the limiting rods through the two groups of connecting rods, so that the control operation of the relative sliding of the two groups of connecting slide blocks is realized;

3. according to the rotary disk aerator for river sewage treatment, the protection plates are arranged, the connecting slide block drives the first guide pillar to slide along the inner wall of the protection track through the connecting hole plate, the first guide pillar drives the protection plates to slide along the protection track through the second guide pillar, and the opening and closing operation of the protection plates is realized through the relative sliding of the two groups of protection plates, so that the maintenance operation of the aeration rotary disk is facilitated;

4. according to the rotary disk aerator for river sewage treatment, the turnover guide pillar is arranged, the turnover mechanism slides to drive the turnover guide pillar to vertically slide along the limiting sliding groove through the bent sliding pore plate, so that the turnover guide pillar slides to drive the conveying belt on the outer wall of the conveying frame to swing through the turnover sliding groove, and the protection operation on the conveying belt is realized;

5. this river course sewage treatment is with commentaries on classics dish aeration machine, through setting up fixed cutter and activity cutter, rotate the cam and rotate and drive the inner wall vertical slip of elevator slide along the spacing groove, elevator slide drives the outer wall vertical slip of activity cutter along fixed cutter, through the relative slip of activity cutter and fixed cutter, realizes the cutting operation to weeds.

Drawings

Fig. 1 is a schematic diagram of an overall first perspective structure of a rotary disk aerator for river sewage treatment according to the present invention.

Fig. 2 is a schematic diagram of an overall second visual angle structure of a rotary disk aerator for river sewage treatment according to the present invention.

Fig. 3 is a schematic structural diagram of a lifting mechanism of a rotary disk aerator for river sewage treatment provided by the invention.

Fig. 4 is a schematic view of a first visual angle structure of a protection plate of the rotary disk aerator for river sewage treatment provided by the invention.

Fig. 5 is a schematic diagram of a second visual angle structure of a protection plate of the rotary disk aerator for river sewage treatment provided by the invention.

Fig. 6 is a schematic view of a connection structure of a turnover mechanism and a cutting mechanism of the rotary disk aerator for river sewage treatment provided by the invention.

Fig. 7 is a partial structural schematic diagram of a turnover mechanism and a cutting mechanism of the rotary disk aerator for river sewage treatment provided by the invention.

Fig. 8 is a schematic view of a connecting structure of a cutting mechanism of a rotary disk aerator for river sewage treatment according to the present invention.

Fig. 9 is a flow chart of a rotary disk aerator for river sewage treatment according to the present invention.

In the figure: 1. a floating support; 2. an aeration motor; 3. an aeration turntable; 4. a collection box; 5. a working motor; 6. a threaded slider; 7. a threaded rod; 8. connecting the sliding block; 9. a limiting rod; 10. connecting the connecting rod; 11. a first guide post; 12. a protection track; 13. connecting the pore plates; 14. a protection plate; 15. a second guide post; 16. a console; 17. intercepting a plug; 18. a lifting mechanism; 1801. a lifting motor; 1802. rotating the disc; 1803. rotating the guide post; 1804. a movable orifice plate; 1805. a lifting column; 1806. a folding frame; 1807. fixing the orifice plate; 1808. a lifting base; 1809. lifting the pore plate; 1810. a water quality detector; 19. a turnover mechanism; 1901. sliding the orifice plate; 1902. turning over the guide pillar; 1903. overturning the chute; 1904. a limiting chute; 20. a transfer frame; 21. a cutting mechanism; 2101. an output motor; 2102. a rotating shaft; 2103. a conveyor belt; 2104. rotating the cam; 2105. a lifting slide block; 2106. fixing the cutter; 2107. a limiting groove; 2108. a movable cutter.

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.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1-9, a rotary disk aerator for river sewage treatment comprises a float support 1, a threaded slider 6, a connecting slider 8, a limiting rod 9, a first guide post 11 and a protective track 12, wherein the top end of the float support 1 is fixedly connected with an aeration motor 2, the output end of the aeration motor 2 is provided with an aeration rotary disk 3, the top end of the float support 1 is positioned at one side of the aeration motor 2 and is fixedly connected with a collection box 4, the top end of the collection box 4 is fixedly connected with a working motor 5, the output end of the working motor 5 is provided with a threaded rod 7 for driving the threaded slider 6 to horizontally slide, the side wall of the threaded slider 6 is screwed with a connecting rod 10 for driving the connecting slider 8 to slide along the limiting rod 9, the side wall of the connecting slider 8 is fixedly connected with a connecting pore plate 13 for driving the first guide post 11 to slide along the protective track 12, the bottom end of the first guide post 11 is screwed with the protective plate 14, the top end of the protection plate 14 is screwed with a second guide post 15 which is connected with the protection track 12 in a sliding way at one side far away from the first guide post 11.

Further, one side that aeration motor 2 kept away from collecting box 4 is located cursory support 1's top fixedly connected with control cabinet 16, cursory support 1's outer wall fixedly connected with interception plug 17, and the outer wall fixedly connected with elevating system 18 of interception plug 17, the bottom of screw slider 6 is located one side fixedly connected with tilting mechanism 19 of collecting box 4, and one side that tilting mechanism 19's outer wall is located collecting box 4 has met transfer frame 20 soon, transfer frame 20's outer wall fixedly connected with cutting mechanism 21, through setting up elevating system 18, be favorable to realizing the water quality testing operation to the different river course degree of depth of water quality testing appearance 1810, through setting up tilting mechanism 19, be favorable to realizing the protection operation to transfer frame 20, through setting up cutting mechanism 21, be favorable to realizing the cutting operation to weeds.

Further, link block 8 is provided with two sets ofly, and link block 8 constitutes sliding structure through between threaded slide block 6 and connecting rod 10 and the gag lever post 9, first guide pillar 11 passes through and constitutes sliding structure between link block 8 and connection orifice plate 13 and the protection track 12, and protection track 12 is the echelonment, be favorable to threaded slide block 6 to slide and drive two sets of link block 8 along gag lever post 9 relative slip through two sets of connecting rod 10, link block 8 drives and drives first guide pillar 11 through connection orifice plate 13 and slide along the inner wall of protection track 12, first guide pillar 11 drives guard plate 14 through second guide pillar 15 and slides along protection track 12, the realization is to the operation that opens and shuts of guard plate 14.

Further, the lifting mechanism 18 comprises a lifting motor 1801, a rotating disc 1802, a rotating guide post 1803, a movable orifice plate 1804, a lifting column 1805, a folding frame 1806, a fixed orifice plate 1807, a lifting base 1808, a lifting orifice plate 1809 and a water quality detector 1810, wherein the outer wall of the lifting mechanism 18 is fixedly connected with the lifting motor 1801, the rotating disc 1802 is installed at the output end of the lifting motor 1801, the rotating guide post 1803 is arranged at the edge of the outer wall of the rotating disc 1802, the outer wall of the rotating guide post 1803 is movably connected with a movable orifice plate 1804 in sliding connection with the outer wall of the lifting mechanism 18, one end of the movable orifice plate 1804 is fixedly connected with the lifting column 1805, the bottom end of the lifting column 1805 extends to the lower part of the lifting mechanism 18 and is rotatably connected with the folding frame 1806, the connecting part of the top end of the folding frame 1806 and the bottom end of the lifting mechanism 18 is provided with the fixed orifice plate 1807, the bottom end of the folding frame 1808 is movably connected with the lifting base 1808, and the connecting part of the lifting orifice plate 1809 is provided with the folding frame 1806, lifting base 1808's bottom fixedly connected with water quality testing appearance 1810, through setting up elevating system 18, be favorable to rolling disc 1802 to rotate and drive movable orifice plate 1804 along the vertical slip of elevating system 18's outer wall through rotatory guide pillar 1803, movable orifice plate 1804 drives the vertical slip of lifting column 1805, so that the vertical slip of lifting column 1805 drives folding leg 1806 through fixed orifice plate 1807 and folds, so that folding leg 1806 is folding to drive lifting base 1808 vertical lift through lifting orifice plate 1809, lifting base 1808 goes up and down to drive water quality testing appearance 1810 vertical lift, realize the water quality testing operation to the different degree of depth.

Further, the movable orifice plate 1804 passes through and constitutes elevation structure between rolling disc 1802 and rotatory guide pillar 1803 and elevating system 18, folding leg 1806 passes through and constitutes beta structure between lifting column 1805 and fixed orifice plate 1807 and elevating system 18, and lifting base 1808 passes through folding leg 1806 and constitutes elevation structure between lifting orifice plate 1809 and the elevating system 18, it drives movable orifice plate 1804 vertical slip to be favorable to rolling disc 1802 to rotate through rotatory guide pillar 1803, movable orifice plate 1804 drives lifting column 1805 and slides, so that lifting column 1805 vertical slip drives folding leg 1806 through fixed orifice plate 1807 and folds, so that folding leg 1806 is folding to drive lifting base 1808 vertical lift through lifting orifice plate 1809, the realization is to the control operation of lifting base 1808 vertical lift.

Further, tilting mechanism 19 includes sliding hole board 1901, upset guide pillar 1902, upset spout 1903 and spacing spout 1904, tilting mechanism 19's bottom fixedly connected with and 4 outer wall sliding connection's of collecting box sliding hole board 1901, and sliding hole board 1901's inner wall is provided with the upset guide pillar 1902 with 20 outer wall sliding connection of conveying frame, upset spout 1903 has been seted up with the position of being connected of conveying frame 20 to upset guide pillar 1902, the position of being connected of upset guide pillar 1902 and collecting box 4 is provided with spacing spout 1904, through setting up tilting mechanism 19, tilting mechanism 19 slides and drives upset guide pillar 1902 and follows the vertical slip of spacing spout 1904 through the sliding hole board 1901 of bending type, so that the upset guide pillar slides and drives the conveyer belt 2103 swing of conveying frame 20 outer wall through upset spout 1903, realize the protection operation to conveyer belt 2103.

Further, upset guide pillar 1902 passes through to constitute elevation structure between slip orifice plate 1901 and the spacing spout 1904, and slip orifice plate 1901 is the form of buckling, conveying frame 20 constitutes swing structure through overturning guide pillar 1902 and overturning spout 1903 and collecting box 4, be favorable to tilting mechanism 19 to slide to drive through the slip orifice plate 1901 of the form of buckling and drive upset guide pillar 1902 and follow the vertical slip of spacing spout 1904, so that overturning guide pillar 1902 slides and drives the conveyer belt 2103 swing of conveying frame 20 outer wall through overturning spout 1903, the realization is to the wobbling control operation of conveyer belt 2103.

Further, the cutting mechanism 21 includes an output motor 2101, a rotating shaft 2102, a conveyor belt 2103, a rotating cam 2104, a lifting slider 2105, a fixed cutter 2106, a limit slot 2107 and a movable cutter 2108, the outer wall of the cutting mechanism 21 is fixedly connected with the output motor 2101, the output end of the output motor 2101 is provided with the rotating shaft 2102, the outer wall of the rotating shaft 2102 is provided with the conveyor belt 2103 screwed with the outer wall of the conveying frame 20, the outer wall of the rotating shaft 2102 is fixedly connected with the rotating cam 2104 at one side of the conveyor belt 2103, the top end of the rotating cam 2104 is tightly attached with the lifting slider 2105, the side wall of the lifting slider 2105 is slidably connected with the fixed cutter 2106 fixedly connected with the outer wall of the conveying frame 20, the connecting part of the fixed cutter 2106 and the lifting slider 2105 is provided with the limit slot 2107, one end of the lifting slider 2105 is fixedly connected with the movable cutter 2108 slidably connected with the fixed cutter 2106, by arranging the cutting mechanism 21, being favorable to the pivot 2102 to rotate and drive the rotation cam 2104 and rotate in step, rotating the cam 2104 and rotating and driving the lifting slide block 2105 and along the vertical slip of inner wall of spacing groove 2107, the lifting slide block 2105 drives the vertical slip of outer wall of movable cutter 2108 along fixed cutter 2106, through the relative slip of movable cutter 2108 and fixed cutter 2106, the realization is to the cutting operation of weeds.

Furthermore, the lifting slide block 2105 forms a lifting structure with the limit groove 2107 through the rotating cam 2104, two groups of fixed cutters 2106 are arranged, the fixed cutters 2106 are attached to the movable cutters 2108, so that the rotating cam 2104 can rotate to drive the lifting slide block 2105 to vertically slide along the inner wall of the limit groove 2107, the lifting slide block 2105 drives the movable cutters 2108 to vertically slide along the outer wall of the fixed cutters 2106, and the control operation of the relative sliding of the movable cutters 2108 and the fixed cutters 2106 is realized;

the embodiment also provides a use scheme of the rotary disk aerator for river sewage treatment, and the device is adopted, and the method comprises the following steps:

s1, when the device is used, firstly, water quality detection operation is carried out on different depths of a river channel, in an elevating mechanism 18, an elevating motor 1801 works to drive a rotating disc 1802 to rotate, the rotating disc 1802 rotates to drive a movable orifice plate 1804 to vertically slide along the outer wall of the elevating mechanism 18 through a rotating guide pillar 1803, the movable orifice plate 1804 drives an elevating column 1805 to vertically slide, so that the elevating column 1805 vertically slides to drive a folding frame 1806 to fold through a fixed orifice plate 1807, the folding frame 1806 is folded to drive an elevating base 1808 to vertically lift through an elevating orifice plate 1809, and the elevating base 1808 lifts to drive a water quality detector 1810 to vertically lift, so that water quality detection operation on different depths is realized;

s2, then, the water quality detector 1810 works to detect the water quality of the river, when the water quality is detected to be not in accordance with the standard, the control console 16 controls the protection plate 14 to open and close, the working motor 5 works to drive the threaded slide block 6 to slide along the outer wall of the collection box 4 through the threaded rod 7, the threaded slide block 6 slides to drive the two groups of connecting slide blocks 8 to relatively slide along the limiting rod 9 through the two groups of connecting rods 10, the connecting slide block 8 drives the first guide post 11 to slide along the inner wall of the protection track 12 through the connecting hole plate 13, the first guide post 11 drives the protection plate 14 to slide along the protection track 12 through the second guide post 15, and the opening and closing operation of the protection plate 14 is realized through the relative sliding of the two groups of protection plates 14, so that the aeration rotary table 3 can be maintained;

s3, the threaded sliding block 6 slides while driving the turnover mechanism 19 to slide along the outer wall of the collection box 4, the turnover mechanism 19 drives the turnover guide post 1902 to slide vertically along the limit sliding slot 1904 through the bent sliding hole plate 1901, so that the turnover guide post 1902 slides through the turnover sliding slot 1903 to drive the conveyor belt 2103 on the outer wall of the conveying frame 20 to swing, thereby protecting the conveyor belt 2103 and preventing the conveyor belt 2103 from rusting;

s4, finally, the aeration motor 2 works to drive the aeration turntable 3 to rotate, so that aeration purification operation on the river channel is realized, then water flow in the river channel enters the conveying frame 20, then, cutting operation is performed on weeds in the water flow, in the cutting mechanism 21, the output motor 2101 works to drive the rotating shaft 2102 to rotate, the rotating shaft 2102 rotates to drive the conveying belt 2103 to work, so that the weeds are conveyed onto the conveying belt 2103, meanwhile, the rotating shaft 2102 rotates to drive the rotating cam 2104 to synchronously rotate, the rotating cam 2104 rotates to drive the lifting slide block 2105 to vertically slide along the inner wall of the limit groove 2107, the lifting slide block 2105 drives the movable cutter 2108 to vertically slide along the outer wall of the fixed cutter 2106, cutting operation on the weeds is realized through relative sliding of the movable cutter 2108 and the fixed cutter 6, then, water flow in the river channel works through the aeration turntable 3, and river channel purification operation is realized.

The working principle of the invention is as follows: when the rotary disk aerator for river sewage treatment is used, firstly, water quality detection operation is carried out on different depths of a river, in an elevating mechanism 18, an elevating motor 1801 works to drive a rotary disk 1802 to rotate, the rotary disk 1802 rotates to drive a movable pore plate 1804 to vertically slide along the outer wall of the elevating mechanism 18 through a rotary guide pillar 1803, the movable pore plate 1804 drives an elevating column 1805 to vertically slide, so that the elevating column 1805 vertically slides to drive a folding frame 1806 to be folded through a fixed pore plate 1807, the folding frame 1806 is folded to drive an elevating base 1808 to vertically lift through an elevating pore plate 1809, the elevating base 1808 vertically drives a water quality detector 1810 to vertically lift, and water quality detection operation on different depths is realized;

then, the water quality detector 1810 works to detect the water quality of a river, when the water quality is detected to be not in accordance with the standard, the control console 16 controls the protection plates 14 to open and close, the working motor 5 works to drive the threaded slide block 6 to slide along the outer wall of the collection box 4 through the threaded rod 7, the threaded slide block 6 slides to drive the two groups of connecting slide blocks 8 to relatively slide along the limiting rod 9 through the two groups of connecting rods 10, the connecting slide blocks 8 drive the first guide posts 11 to slide along the inner wall of the protection track 12 through the connecting hole plate 13, the first guide posts 11 drive the protection plates 14 to slide along the protection track 12 through the second guide posts 15, and the protection plates 14 are relatively slid to realize the opening and closing operation of the protection plates 14, so that the maintenance operation of the aeration rotary table 3 is facilitated;

then, the threaded sliding block 6 slides and simultaneously drives the turnover mechanism 19 to slide along the outer wall of the collection box 4, the turnover mechanism 19 drives the turnover guide pillar 1902 to vertically slide along the limit sliding chute 1904 through the bent sliding hole plate 1901, so that the turnover guide pillar 1902 slides and drives the conveyor belt 2103 on the outer wall of the conveying frame 20 to swing through the turnover sliding chute 1903, the protection operation on the conveyor belt 2103 is realized, and the conveyor belt 2103 is prevented from rusting;

finally, the aeration motor 2 works to drive the aeration turntable 3 to rotate, so that aeration purification operation on the river channel is realized, then water flow in the river channel enters the conveying frame 20, then, cutting operation is performed on weeds in the water flow, in the cutting mechanism 21, the output motor 2101 works to drive the rotating shaft 2102 to rotate, the rotating shaft 2102 rotates to drive the conveying belt 2103 to work, the weeds are conveyed onto the conveying belt 2103, meanwhile, the rotating shaft 2102 rotates to drive the rotating cam 2104 to synchronously rotate, the rotating cam 2104 rotates to drive the lifting slide block 2105 to vertically slide along the inner wall of the limiting groove 2107, the lifting slide block 2105 drives the movable cutter 2108 to vertically slide along the outer wall of the fixed cutter 2106, cutting operation on the weeds is realized through relative sliding of the movable cutter 2108 and the fixed cutter 2106, then, water flow in the river channel works through the aeration turntable 3, so that river channel and river water purification operation are realized.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical scope of the present invention and the equivalent alternatives or modifications according to the technical solution and the inventive concept of the present invention within the technical scope of the present invention.

Claims

1. The utility model provides a river course sewage treatment is with commentaries on classics dish aeration machine, includes cursory support (1), screw slider (6), link block (8), gag lever post (9), first guide pillar (11) and protection track (12), its characterized in that: the top end of the buoy support (1) is fixedly connected with an aeration motor (2), the output end of the aeration motor (2) is provided with an aeration rotary table (3), the top end of the buoy support (1) is positioned at one side of the aeration motor (2) and is fixedly connected with a collection box (4), the top end of the collection box (4) is fixedly connected with a working motor (5), the output end of the working motor (5) is provided with a threaded rod (7) for driving the threaded slider (6) to horizontally slide, the side wall of the threaded slider (6) is screwed with a connecting rod (10) for driving the connecting slider (8) to slide along the limiting rod (9), the side wall of the connecting slider (8) is fixedly connected with a connecting pore plate (13) for driving the first guide pillar (11) to slide along the protective track (12), the bottom end of the first guide pillar (11) is screwed with a protective plate (14), and a second guide post (15) which is in sliding connection with the protection track (12) is screwed on one side, far away from the first guide post (11), of the top end of the protection plate (14).

2. The rotary disk aerator for river sewage treatment according to claim 1, wherein: one side of the aeration motor (2) far away from the collection box (4) is located on a top fixedly connected with control console (16) of the floating support (1), the outer wall fixedly connected with intercepting plug (17) of the floating support (1) and the outer wall fixedly connected with lifting mechanism (18) of the intercepting plug (17), the bottom end of the threaded slide block (6) is located on one side fixedly connected with turnover mechanism (19) of the collection box (4), one side of the outer wall of the turnover mechanism (19) located on the collection box (4) is connected with a conveying frame (20) in a rotating mode, and the outer wall fixedly connected with cutting mechanism (21) of the conveying frame (20) is connected with a cutting mechanism (21).

3. The rotary disk aerator of claim 1 for river sewage treatment, which is characterized in that: the connecting sliding blocks (8) are arranged in two groups, a sliding structure is formed between each connecting sliding block (8) and the limiting rod (9) through the threaded sliding blocks (6) and the connecting rod (10), a sliding structure is formed between each first guide pillar (11) and the protection track (12) through the connecting sliding blocks (8) and the connecting hole plates (13), and the protection track (12) is in a step shape.

4. The rotary disk aerator for river sewage treatment according to claim 2, characterized in that: elevating system (18) are including elevating motor (1801), rolling disc (1802), rotatory guide pillar (1803), activity orifice plate (1804), lift post (1805), folding leg (1806), fixed orifice plate (1807), lifting pedestal (1808), lift orifice plate (1809) and water quality testing appearance (1810), the outer wall fixedly connected with elevating motor (1801) of elevating system (18), and elevating motor's (1801) output installs rolling disc (1802), the outer wall edge of rolling disc (1802) is provided with rotatory guide pillar (1803), and the outer wall swing joint of rotatory guide pillar (1803) have with elevating system (18) outer wall sliding connection's activity orifice plate (1804), the one end fixedly connected with lift post (1805) of activity orifice plate (1804), and the bottom of lift post (1805) extends to the below of elevating system (18) and has connect folding leg (1806) soon, the top of folding leg (1806) is provided with fixed orifice plate (1804) with the connection position of elevating system (18) bottom (1807) The utility model discloses a folding rack, the bottom swing joint of folding leg (1806) has lifting base (1808), and lifting base (1808) and folding leg (1806) the position of being connected are provided with lift orifice plate (1809), the bottom fixedly connected with water quality testing appearance (1810) of lifting base (1808).

5. The rotary disk aerator for river sewage treatment according to claim 4, wherein the rotary disk aerator comprises: the movable orifice plate (1804) forms a lifting structure with the lifting mechanism (18) through a rotating disc (1802) and a rotating guide post (1803), the folding frame (1806) forms a folding structure with the lifting mechanism (18) through a lifting post (1805) and a fixed orifice plate (1807), and the lifting base (1808) forms a lifting structure with the lifting mechanism (18) through the folding frame (1806) and a lifting orifice plate (1809).

6. The rotary disk aerator for river sewage treatment according to claim 2, characterized in that: the turnover mechanism (19) comprises a sliding hole plate (1901), a turnover guide pillar (1902), a turnover chute (1903) and a limiting chute (1904), the bottom end of the turnover mechanism (19) is fixedly connected with the sliding hole plate (1901) which is in sliding connection with the outer wall of the collection box (4), the inner wall of the sliding hole plate (1901) is provided with the turnover guide pillar (1902) which is in sliding connection with the outer wall of the conveying frame (20), the turnover chute (1903) is arranged at the connecting part of the turnover guide pillar (1902) and the conveying frame (20), and the limiting chute (1904) is arranged at the connecting part of the turnover guide pillar (1902) and the collection box (4).

7. The rotary disk aerator of claim 6 for river sewage treatment, which is characterized in that: the turnover guide post (1902) forms a lifting structure through the sliding hole plate (1901) and the limiting sliding groove (1904), the sliding hole plate (1901) is bent, and the conveying frame (20) forms a swinging structure through the turnover guide post (1902), the turnover sliding groove (1903) and the collecting box (4).

8. The rotary disk aerator for river sewage treatment according to claim 2, characterized in that: the cutting mechanism (21) comprises an output motor (2101), a rotating shaft (2102), a conveyor belt (2103), a rotating cam (2104), a lifting slide block (2105), a fixed cutter (2106), a limiting groove (2107) and a movable cutter (2108), wherein the outer wall of the cutting mechanism (21) is fixedly connected with the output motor (2101), the rotating shaft (2102) is installed at the output end of the output motor (2101), the conveyor belt (2103) which is connected with the outer wall of the conveying frame (20) in a rotating mode is arranged on the outer wall of the rotating shaft (2102), the rotating cam (2104) is fixedly connected with the outer wall of the rotating shaft (2102) on one side of the conveyor belt (2103), the lifting slide block (2105) is tightly attached to the top end of the rotating cam (2104), the fixed cutter (2106) is fixedly connected with the outer wall of the conveying frame (20) in a sliding mode, and the limiting groove (2107) is formed in the connecting position of the fixed cutter (2106) and the lifting slide block (2105), one end of the lifting slide block (2105) is fixedly connected with a movable cutter (2108) which is connected with the fixed cutter (2106) in a sliding way.

9. The rotary disk aerator of claim 8 for river sewage treatment, which is characterized in that: lifting slide (2105) constitute elevation structure through rotating between cam (2104) and spacing groove (2107), fixed cutter (2106) are provided with two sets ofly, and fixed cutter (2106) and activity cutter (2108) are laminated mutually.

10. A rotary disk aerator as claimed in claim 1 for river sewage treatment and its use method, characterized in that it comprises the following steps:

s1, when the device is used, firstly, water quality detection operation is carried out on different depths of a river channel, in a lifting mechanism (18), a lifting motor (1801) works to drive a rotary disc (1802) to rotate, the rotary disc (1802) rotates to drive a movable orifice plate (1804) to vertically slide along the outer wall of the lifting mechanism (18) through a rotary guide pillar (1803), the movable orifice plate (1804) drives a lifting column (1805) to vertically slide, so that the lifting column (1805) vertically slides to drive a folding frame (1806) to fold through a fixed orifice plate (1807), so that the folding frame (1806) is folded to drive a lifting base (1808) to vertically lift through a lifting orifice plate (1809), the lifting base (1808) lifts to drive a water quality detector (1810) to vertically lift, and realizes water quality detection operation on different depths;

s2, operating the water quality detector (1810) to detect the river water quality, when the water quality is not in accordance with the standard, the control panel (14) is controlled by the control console (16) to open and close, the working motor (5) drives the threaded slide block (6) to slide along the outer wall of the collecting box (4) through the threaded rod (7), the threaded slide block (6) slides to drive the two groups of connecting slide blocks (8) to slide along the limiting rod (9) through the two groups of connecting rods (10), the connecting slide block (8) drives the first guide pillar (11) to slide along the inner wall of the protective track (12) through the connecting hole plate (13), the first guide pillar (11) drives the protection panel (14) to slide along the protective track (12) through the second guide pillar (15), the opening and closing operation of the protection plates (14) is realized through the relative sliding of the two groups of protection plates (14), so that the maintenance operation of the aeration rotary table (3) is facilitated;

s3, then, the threaded slide block (6) slides and simultaneously drives the turnover mechanism (19) to slide along the outer wall of the collection box (4), the turnover mechanism (19) drives the turnover guide pillar (1902) to vertically slide along the limit sliding chute (1904) through the bent sliding hole plate (1901), so that the turnover guide pillar (1902) slides to drive the conveyor belt (2103) on the outer wall of the conveying frame (20) to swing through the turnover sliding chute (1903), the protection operation on the conveyor belt (2103) is realized, and the conveyor belt (2103) is prevented from rusting;

s4, finally, the aeration motor (2) works to drive the aeration turntable (3) to rotate to realize the aeration purification operation of the river channel, then the water flow in the river channel enters the conveying frame (20), then the cutting operation is carried out on the weeds in the water flow, in the cutting mechanism (21), the output motor (2101) works to drive the rotating shaft (2102) to rotate, the rotating shaft (2102) rotates to drive the conveying belt (2103) to work to convey the weeds onto the conveying belt (2103), meanwhile, the rotating shaft (2102) rotates to drive the rotating cam (2104) to synchronously rotate, the rotating cam (2104) rotates to drive the lifting slide block (2105) to vertically slide along the inner wall of the limiting groove (2107), the lifting slide block (2105) drives the movable cutter (2108) to vertically slide along the outer wall of the fixed cutter (2106), and the cutting operation of the weeds is realized through the relative sliding of the movable cutter (2108) and the fixed cutter (2106), then the water flow in the river channel works through the aeration turntable (3), and the river channel and river water purification operation is realized.