CN113585427A - Rainwater drainage guide structure of sludge treatment area - Google Patents

Abstract

The invention relates to the technical field of rainwater drainage guide, and discloses a rainwater drainage guide structure of a sludge treatment area, which comprises a drainage ditch, a flood interception ditch arranged at one end of the drainage ditch, and a concrete cushion layer arranged at the lower end of the flood interception ditch, wherein the drainage ditch comprises a communication mechanism arranged between the drainage ditch and the flood interception ditch, a mounting groove arranged at the lower end of the drainage ditch, and an energy storage mechanism arranged inside the flood interception ditch, a semicircular magnetic block is driven to move by the movement of a support block, the movement of the semicircular magnetic block can drive a magnetic lug to move so as to enable the drainage ditch to be displaced, so that a slotted hole is leaked out, a guide plate is pushed forwards by the expansion and contraction of a parallel telescopic rod and is upwards expanded by a vertical telescopic rod so as to enable the guide plate to move upwards, so that a triangular plate can be contacted with the drainage ditch, external rainwater is collected into the drainage ditch by a drainage groove, and the collection quality is improved, preventing rainwater from seeping outwards.

Description

Rainwater drainage guide structure of sludge treatment area

Technical Field

The invention relates to the technical field of rainwater guide and drainage, in particular to a rainwater guide and drainage structure of a sludge treatment area.

Background

The sludge treatment is a process for carrying out reduction, stabilization and harmless treatment on sludge, the more sludge residues are generated and need to be treated when the sewage treatment degree is higher, and the sludge treatment and disposal become the most complicated and high-cost part in the operation of a sewage treatment system for modern sewage treatment plants unless land treatment or sewage pond treatment is utilized, so that the influence on the sludge treatment caused by rainwater outside the field entering the field is prevented, and meanwhile, drainage ditches are constructed around a sludge treatment area and collected and drained to an upstream pond through flood interception ditches for timely draining rainwater.

The existing rainwater drainage guide structure needs to prevent external water from entering and internal water from being discharged at the same time, but in the actual use process, the rainwater coming out of a sludge area carries a little of soil, when the soil enters the drainage guide structure, the whole drainage guide structure is seriously failed, the rainwater is difficult to discharge, and the treatment of the sludge is also influenced;

secondly, external inlet water and internal outlet water are difficult to collect by the drainage guide structure, so that the phenomenon of more accumulated rainwater is caused, and the treatment of sludge is influenced;

finally, the drained rainwater is directly drained to the pond, and the drained rainwater is not utilized, so that certain resource waste is realized.

To above problem, improved current device, provided the rainwater drainage guide structure in sludge treatment district.

Disclosure of Invention

The invention aims to provide a rainwater guide and drainage structure of a sludge treatment area, and aims to solve the problems that rainwater is difficult to drain and the sludge treatment quality is reduced due to soil blockage in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the rainwater drainage guide structure of the sludge treatment area comprises a drainage ditch, a flood interception ditch arranged at one end of the drainage ditch and a concrete cushion layer arranged at the lower end of the flood interception ditch, wherein the drainage ditch comprises a communication mechanism arranged between the drainage ditch and the flood interception ditch, an installation groove arranged at the lower end of the drainage ditch and an energy storage mechanism arranged inside the flood interception ditch, the communication mechanism comprises a main telescopic pipe arranged at one side of the flood interception ditch and a connecting magnetic ring arranged at one end of the main telescopic pipe, the flood interception ditch is communicated with the drainage ditch through the main telescopic pipe, and the connecting magnetic ring is magnetically connected with an interface of the drainage ditch;

the bottom in escape canal is provided with vibration mechanism, and vibration mechanism sets up the heavy end piece in vibration board and escape canal bottom including setting up the vibration board in the inside in escape canal to and set up the spring on sinking end piece surface, and the inside of sinking end piece is run through and is provided with the electromagnetic bar, and the escape canal passes through the electromagnetic bar and is connected with vibration board magnetism.

Further, the mounting groove includes the arc wall board of fixed mounting at the mounting groove upper surface, and the activity sets up the magnetism lug in the arc wall board is inside, sets up the slotted hole on the mounting groove inner wall to and set up the mechanism of answering in the slotted hole is inside, and the inside of mounting groove still is provided with drive mechanism, and drive mechanism corresponds with the arc wall board, and fixed mounting has the magnetic stripe on the lower bottom surface of escape canal, and the escape canal is connected with the magnetism lug through the magnetic stripe.

Further, the receiving mechanism comprises a sending-out assembly arranged inside the slotted hole and a guide assembly arranged at one end of the sending-out assembly.

Further, the guide subassembly includes guide board and the set-square of setting on the guide board surface, and the drainage groove has been seted up to one side of guide board, and the kerve has been seted up to the opposite side of guide board, is provided with the bottom block on the surface of set-square, and the set-square passes through bottom block and kerve swing joint, and the one end fixed mounting of set-square has flexible return bend, and the one end of flexible return bend is connected with the kerve inner wall.

Further, send out the subassembly and include that one end sets up at the inside parallel telescopic link of slotted hole and set up the vertical telescopic link in parallel telescopic link one end, and vertical telescopic link's upper end fixed mounting has the swash plate, and bottom surface fixed connection under vertical telescopic link passes through swash plate and the guide board, and parallel telescopic link and vertical telescopic link all are connected with external air pump.

Further, the traction mechanism comprises an inner groove arranged at the bottom of the mounting groove, a support block arranged inside the inner groove and an electric push rod arranged on one side of the support block, one end of the electric push rod is connected with the inner groove, a lifting rod is fixedly arranged on the upper surface of the support block, a semicircular magnetic block is fixedly arranged at the upper end of the lifting rod and is magnetically connected with the magnetic projection block, and the magnetic projection block is movably connected with the support block through the semicircular magnetic block.

Further, the energy storage mechanism comprises an energy storage box arranged inside the flood interception ditch, a discharge assembly arranged on one side of the energy storage box and a wall groove plate arranged on the inner wall of the energy storage box, a moving member is arranged inside the wall groove plate, a flat plate is fixedly arranged on the upper surface of the moving member, a filter screen is arranged on the outer surface of the flat plate, the lower end of the moving member is connected with a telescopic member arranged inside the wall groove plate, the energy storage box is communicated with the drainage ditch through a main telescopic pipe, and a rotating mechanism is arranged on one side of the energy storage mechanism.

Furthermore, slewing mechanism includes to run through the setting and cuts the inside branch of flood channel, cup joints the blade that sets up on the branch surface and sets up the external spindle at branch one end, and branch is connected with external generator through the external spindle.

Further, the discharging assembly comprises a discharging pipe arranged on the outer surface of the energy storage box, a blocking ball placed inside the discharging pipe, and an adsorption magnetic plate arranged at the bottom of the discharging pipe.

The shutoff spheroid is connected with absorption magnetic sheet magnetism, and fixed mounting has the cover shell on the surface of discharge pipe, runs through on the surface of cover shell and is provided with the electromagnetism post, the aperture size and the spheroidal diameter phase-match of shutoff of cover shell.

According to the rainwater drainage structure of the sludge treatment area, the vibration mechanism is arranged at the bottom of the drainage ditch, the vibration plate is arranged inside the drainage ditch, the bottom of each of the vibration plate and the drainage ditch is provided with the bottom sinking block, the spring is arranged on the outer surface of each of the bottom sinking blocks, the electromagnetic rod penetrates through the inside of each of the bottom sinking blocks, the drainage ditch is magnetically connected with the vibration plate through the electromagnetic rod, when rainwater containing soil enters the drainage ditch, the soil can fall on the vibration plate due to gravity, and then the electromagnetic rods are electrified, so that the two groups of bottom sinking blocks are mutually attracted, the vibration plate quickly falls, the soil can also quickly settle due to inertia, then the power supply is turned off, the two groups of bottom sinking blocks are separated again and sequentially reciprocate, the soil can be slowly tamped, the soil is collected, the soil is prevented from being blocked, and the working efficiency of the extension pipe is improved.

Drawings

FIG. 1 is a schematic view of the whole structure of a rainwater drainage guide structure of a sludge treatment area according to the present invention;

FIG. 2 is a schematic structural view of a drainage ditch and a mounting groove of the rainwater drainage structure of the sludge treatment zone according to the present invention;

FIG. 3 is a schematic view of a mounting groove structure of a rainwater drainage structure of a sludge treatment area according to the present invention;

FIG. 4 is a schematic structural view of a rainwater drainage guide structure of a sludge treatment area according to the present invention;

FIG. 5 is a schematic structural view of a rainwater drainage guide structure delivery assembly of the sludge treatment area according to the present invention;

FIG. 6 is a schematic structural view of a rainwater drainage guide structure guide assembly of the sludge treatment area according to the present invention;

FIG. 7 is a schematic view of a flood intercepting ditch structure of a rainwater drainage structure of a sludge treatment area according to the present invention;

FIG. 8 is a schematic structural view of an energy storage mechanism of a rainwater drainage guide structure in a sludge treatment area according to the present invention;

FIG. 9 is a schematic view of the internal structure of a rainwater drainage structure mounting groove of the sludge treatment zone according to the present invention;

FIG. 10 is a partial structural view of a rainwater drainage guide structure vibration mechanism of a sludge treatment area according to the present invention;

FIG. 11 is a schematic view of the internal structure of the drainage pipe of the rainwater drainage structure in the sludge treatment area.

In the figure: 1. a drainage ditch; 11. a magnetic strip; 2. intercepting the flood ditch; 3. a concrete cushion layer; 4. a communicating mechanism; 41. a main telescopic pipe; 42. connecting a magnetic ring; 5. mounting grooves; 51. an arc-shaped groove plate; 52. a magnetic bump; 53. a receiving mechanism; 531. a guide assembly; 5311. a guide plate; 5312. a drainage groove; 5313. a bottom groove; 5314. a set square; 5315. a bottom block; 5316. a telescopic bent pipe; 532. a feeding out assembly; 5321. parallel telescopic rods; 5322. a vertical telescopic rod; 5323. a sloping plate; 54. a slot; 55. a traction mechanism; 551. an inner tank; 552. supporting a block; 553. an electric push rod; 554. a lifting rod; 555. a semicircular magnetic block; 6. an energy storage mechanism; 61. an energy storage tank; 62. a discharge assembly; 621. a discharge pipe; 622. plugging the ball body; 623. adsorbing the magnetic plate; 624. a housing; 625. an electromagnetic column; 63. a wall channel plate; 64. a moving member; 65. a flat plate; 66. filtering with a screen; 7. a rotating mechanism; 71. a strut; 72. a paddle blade; 73. an external shaft; 8. a vibration mechanism; 81. a vibrating plate; 82. sinking a bottom block; 83. a spring; 84. an electromagnetic 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.

Referring to fig. 1, 2 and 7, the rainwater drainage guide structure of the sludge treatment zone comprises a drainage ditch 1, a flood interception ditch 2 arranged at one end of the drainage ditch 1, and a concrete cushion layer 3 arranged at the lower end of the flood interception ditch 2, wherein the drainage ditch 1 comprises a communication mechanism 4 arranged between the drainage ditch 1 and the flood interception ditch 2, an installation groove 5 arranged at the lower end of the drainage ditch 1, and an energy storage mechanism 6 arranged inside the flood interception ditch 2, the communication mechanism 4 comprises a main telescopic pipe 41 arranged at one side of the flood interception ditch 2, and a connection magnetic ring 42 arranged at one end of the main telescopic pipe 41, the flood interception ditch 2 is communicated with the drainage ditch 1 through the main telescopic pipe 41, the connection magnetic ring 42 is magnetically connected with the joint of the drainage ditch 1, and in order that the drainage ditch 1 can normally move when the drainage ditch 1 moves.

Referring to fig. 10, the bottom of the drainage ditch 1 is provided with a vibration mechanism 8, the vibration mechanism 8 includes a vibration plate 81 provided inside the drainage ditch 1, a bottom sinking block 82 provided at the vibration plate 81 and the bottom of the drainage ditch 1, and a spring 83 disposed on the outer surface of the sinking mass 82, a magnet rod 84 is disposed through the sinking mass 82, the drainage ditch 1 is magnetically connected with the vibrating plate 81 through the magnet rod 84, when rainwater containing soil enters the drainage ditch 1, the soil falls on the vibration plate 81 due to gravity, and the electromagnetic rod 84 is supplied with current, so that the two groups of the bottom sinking blocks 82 are mutually attracted, the vibrating plate 81 is rapidly descended, the soil can be rapidly subsided due to inertia, then the power supply is turned off, the two groups of the bottom sinking blocks 82 are separated again and sequentially reciprocate, the soil can be slowly tamped, thereby collecting the soil, avoiding the soil to block the main extension tube 41 and improving the working efficiency.

Referring to fig. 2, 3 and 9, mounting groove 5 includes arc wall 51 of fixed mounting at the 5 upper surfaces of mounting groove, the activity sets up the inside magnetism lug 52 at arc wall 51, set up slotted hole 54 on the 5 inner walls of mounting groove, and set up the inside mechanism 53 that answers at slotted hole 54, the inside of mounting groove 5 still is provided with drive mechanism 55, drive mechanism 55 is corresponding with arc wall 51, fixed mounting has magnetic stripe 11 on the lower bottom surface of escape canal 1, escape canal 1 is connected with magnetism lug 52 through magnetic stripe 11, make escape canal 1 can be the pendulum motion inside mounting groove 5, be convenient for escape canal 1 to collect the rainwater.

Referring to fig. 4-6, the receiving mechanism 53 includes a feeding assembly 532 disposed inside the slot 54 and a guiding assembly 531 disposed at one end of the feeding assembly 532, the guiding assembly 531 includes a guiding plate 5311 and a triangular plate 5314 disposed on an outer surface of the guiding plate 5311, one side of the guiding plate 5311 is provided with a drainage groove 5312, the other side of the guiding plate 5311 is provided with a bottom groove 5313, an outer surface of the triangular plate 5314 is provided with a bottom block 5315, the triangular plate 5314 is movably connected with the bottom groove 5313 through the bottom block 5315, one end of the triangular plate 5314 is fixedly provided with a telescopic bent pipe 5316, one end of the telescopic bent pipe 5316 is connected with an inner wall of the bottom groove 5313, the feeding assembly 532 includes a parallel telescopic rod 5321 having one end disposed inside the slot 54 and a vertical telescopic rod 5322 disposed at one end of the parallel telescopic rod 5321, an upper end of the vertical telescopic rod 5322 is fixedly provided with a sloping plate 5323, the vertical telescopic rod 5322 is fixedly connected with a lower bottom surface of the guiding plate 5311 through the sloping plate 5323, parallel telescopic link 5321 and vertical telescopic link 5322 all are connected with external air pump, utilize parallel telescopic link 5321's flexible for guide board 5311 passes forward, and rethread vertical telescopic link 5322 upwards stretches out and draws back, makes guide board 5311 rebound, so can make set-square 5314 and escape canal 1 contact, utilize drainage groove 5312 to collect external rainwater to escape canal 1 in, improve and collect the quality, prevent that the rainwater from oozing outward.

Referring to fig. 9, the traction mechanism 55 includes an inner groove 551 disposed at the bottom of the mounting groove 5, a support block 552 disposed inside the inner groove 551, and an electric push rod 553 disposed at one side of the support block 552, one end of the electric push rod 553 is connected to the inner groove 551, a lifting rod 554 is fixedly disposed on the upper surface of the support block 552, a semicircular magnet 555 is fixedly disposed at the upper end of the lifting rod 554, the semicircular magnet 555 is magnetically connected to the magnetic bump 52, the magnetic bump 52 is movably connected to the support block 552 through the semicircular magnet 555, the movement of the support block 552 drives the semicircular magnet 555 to move, the magnetic bump 52 can be driven by the movement of the semicircular magnet 555 to move the drainage ditch 1, so that the slot 54 leaks out, and the whole receiving mechanism 53 can move conveniently.

Referring to fig. 8, the energy storage mechanism 6 includes an energy storage box 61 arranged inside the flood interception ditch 2, a discharge assembly 62 arranged on one side of the energy storage box 61, and a wall groove plate 63 arranged on the inner wall of the energy storage box 61, a moving member 64 is arranged inside the wall groove plate 63, a flat plate 65 is fixedly arranged on the upper surface of the moving member 64, a filter screen 66 is arranged on the outer surface of the flat plate 65, the lower end of the moving member 64 is connected with a telescopic member arranged inside the wall groove plate 63, the energy storage box 61 is communicated with the drainage ditch 1 through a main telescopic pipe 41, and is communicated with the drainage ditch 1 through the main telescopic pipe 41, and the soil can be pressed at the bottom of the energy storage box 61 through reciprocating pressing of the filter screen 66, so that the soil is prevented from flowing away due to water flow, the whole blockage is prevented, and the sludge treatment quality is improved indirectly.

Referring to fig. 7 and 11, a rotating mechanism 7 is disposed on one side of the energy storage mechanism 6, the rotating mechanism 7 includes a strut 71 penetrating the inside of the flood intercepting ditch 2, a paddle 72 sleeved on the outer surface of the strut 71 and an external shaft 73 disposed at one end of the strut 71, the strut 71 is connected to an external generator through the external shaft 73, the discharging assembly 62 includes a discharging pipe 621 disposed on the outer surface of the energy storage tank 61, a blocking ball 622 disposed inside the discharging pipe 621, and an absorbing magnetic plate 623 disposed at the bottom of the discharging pipe 621, the blocking ball 622 is magnetically connected to the absorbing magnetic plate 623, a casing 624 is fixedly mounted on the outer surface of the discharging pipe 621, an electromagnetic column 625 penetrates the outer surface of the casing 624, the size of the casing 624 is matched with the diameter of the blocking ball 622, when the water inside the energy storage tank 61 reaches the height of the discharging pipe 621, the discharging pipe 621 can slowly move to the position right below the casing 624 due to the water pressure, the power supply of the electromagnetic column 625 is connected again, so that the electromagnetic column 625 adsorbs the blocking ball 622, rainwater can be discharged from the discharge pipe 621, the blades 72 can be impacted by rainwater with a certain speed, the rotation of the blades 72 can drive the external connecting shaft 73 to rotate, the external connecting shaft 73 can provide mechanical energy for an external power generator, and the purpose of recycling energy is achieved.

The working principle is as follows: through the movement of the supporting block 552, the semicircular magnetic block 555 is driven to move, the movement of the semicircular magnetic block 555 can drive the magnetic lug 52 to move, so that the drainage ditch 1 is displaced, the slotted hole 54 is leaked, the extension of the parallel telescopic rod 5321 is reused, the guide plate 5311 is pushed forwards and then is extended upwards through the vertical telescopic rod 5322, the guide plate 5311 is moved upwards, so that the triangular plate 5314 can be in contact with the drainage ditch 1, external rainwater is collected into the drainage ditch 1 through the drainage groove 5312, secondly, when the rainwater containing soil enters the drainage ditch 1, the soil can fall on the vibrating plate 81 due to gravity, current is introduced into the electromagnetic rod 84, the two groups of sinking blocks 82 are mutually attracted, the vibrating plate 81 can fall rapidly, the soil can also settle rapidly due to inertia, then the power supply is turned off, the two groups of sinking blocks 82 are separated again and sequentially reciprocate, the soil is slowly compacted to collect the soil.

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

1. according to the rainwater drainage structure of the sludge treatment area, the vibration mechanism is arranged at the bottom of the drainage ditch, the vibration plate is arranged inside the drainage ditch, the bottom of each of the vibration plate and the drainage ditch is provided with the bottom sinking block, the spring is arranged on the outer surface of each of the bottom sinking blocks, the electromagnetic rod penetrates through the inside of each of the bottom sinking blocks, the drainage ditch is magnetically connected with the vibration plate through the electromagnetic rod, when rainwater containing soil enters the drainage ditch, the soil can fall on the vibration plate due to gravity, and then the electromagnetic rods are electrified, so that the two groups of bottom sinking blocks are mutually attracted, the vibration plate quickly falls, the soil can also quickly settle due to inertia, then the power supply is turned off, the two groups of bottom sinking blocks are separated again and sequentially reciprocate, the soil can be slowly tamped, the soil is collected, the soil is prevented from being blocked, and the working efficiency of the extension pipe is improved.

2. The invention provides a rainwater drainage guide structure of a sludge treatment area, wherein an arc-shaped groove plate is arranged on the upper surface of a mounting groove, a magnetic lug is arranged inside the arc-shaped groove plate, a slotted hole is formed in the inner wall of the mounting groove, a receiving mechanism is arranged inside the slotted hole, a traction mechanism is also arranged inside the mounting groove, the traction mechanism corresponds to the arc-shaped groove plate, a magnetic strip is fixedly arranged on the lower bottom surface of a drainage ditch, the drainage ditch is connected with the magnetic lug through the magnetic strip, a delivery assembly is arranged inside the slotted hole, and one end of the delivery assembly is provided with a guide assembly, wherein a triangular plate is arranged on the outer surface of a guide plate, one side of the guide plate is provided with a drainage groove, the other side of the guide plate is provided with a bottom groove, a bottom block is arranged on the outer surface of the triangular plate, the triangular plate is movably connected with the bottom groove through the bottom block, a telescopic bent pipe is fixedly arranged at one end of the triangular plate, and one end of the telescopic bent pipe is connected with the inner wall of the bottom groove, a parallel telescopic rod is arranged inside the slotted hole, a vertical telescopic rod is arranged at one end of the parallel telescopic rod, an inclined plate is fixedly arranged at the upper end of the vertical telescopic rod, the vertical telescopic rod is fixedly connected with the lower bottom surface of the guide plate through the inclined plate, the parallel telescopic rod and the vertical telescopic rod are both connected with an external air pump, an inner groove is arranged at the bottom of the mounting groove, a support block is arranged inside the inner groove, an electric push rod is arranged at one side of the support block, one end of the electric push rod is connected with the inner groove, a lifting rod is fixedly arranged on the upper surface of the support block, a semicircular magnetic block is fixedly arranged at the upper end of the lifting rod and magnetically connected with a magnetic lug, the magnetic lug is movably connected with the support block through the semicircular magnetic block, the semicircular magnetic block is driven to move through the movement of the support block, the magnetic lug can be driven to move through the movement of the semicircular magnetic block, so that the drainage ditch is displaced, thereby the slotted hole is leaked, and the extension and retraction of the parallel telescopic rod is reused, make the guide board pass forward, the vertical telescopic link of rethread upwards stretches out and draws back for the guide board rebound, so can make set-square and escape canal contact, utilize the drainage groove to collect external rainwater to the escape canal in, improve and collect the quality, prevent that the rainwater from oozing outward.

3. According to the rainwater drainage guide structure of the sludge treatment area, the energy storage box is arranged inside the flood interception ditch, the drainage assembly is arranged on one side of the energy storage box, the wall groove plate is arranged on the inner wall of the energy storage box, the moving member is arranged inside the wall groove plate, the flat plate is fixedly arranged on the upper surface of the moving member, the filter screen is arranged on the outer surface of the flat plate, the lower end of the moving member is connected with the telescopic member arranged inside the wall groove plate, the energy storage box is communicated with the drainage ditch through the main telescopic pipe, soil can be pressed at the bottom of the energy storage box through reciprocating downward pressing of the filter screen, the soil is prevented from being lost due to water flow, the whole blockage is prevented, and the sludge treatment quality is indirectly improved.

4. The invention provides a rainwater drainage guide structure of a sludge treatment area, wherein a support rod is arranged inside a flood interception ditch, a paddle is arranged on the outer surface of the support rod, an external connecting shaft is arranged at one end of the support rod, the support rod is connected with an external generator through the external connecting shaft, a discharge pipe is arranged on the outer surface of an energy storage box, a plugging ball is arranged inside the discharge pipe, an adsorption magnetic plate is arranged at the bottom of the discharge pipe, the plugging ball is magnetically connected with the adsorption magnetic plate, a casing is fixedly arranged on the outer surface of the discharge pipe, an electromagnetic column penetrates through the outer surface of the casing, the aperture of the casing is matched with the diameter of the plugging ball, when water in the energy storage box reaches the height of the discharge pipe, the discharge pipe can slowly move to the position right below the casing due to water pressure, then a power supply of the electromagnetic column is connected, so that the electromagnetic column adsorbs the plugging ball, at the time, rainwater can be discharged from the discharge pipe, and the rainwater with certain speed can impact the paddle, the rotation of paddle can drive external shaft rotation for external generator can provide mechanical energy, plays the purpose of energy utilization.

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 solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (10)

1. Sludge treatment district's rainwater drainage guide structure, including escape canal (1), set up at the flood interception ditch (2) of escape canal (1) one end to and set up at concrete bed course (3) of intercepting flood ditch (2) lower extreme, its characterized in that: the drainage ditch (1) comprises a communicating mechanism (4) arranged between the drainage ditch (1) and the flood interception ditch (2), a mounting groove (5) arranged at the lower end of the drainage ditch (1), and an energy storage mechanism (6) arranged inside the flood interception ditch (2), wherein the communicating mechanism (4) comprises a main telescopic pipe (41) arranged on one side of the flood interception ditch (2) and a connecting magnetic ring (42) arranged at one end of the main telescopic pipe (41), the flood interception ditch (2) is communicated with the drainage ditch (1) through the main telescopic pipe (41), and the connecting magnetic ring (42) is magnetically connected with the joint of the drainage ditch (1);

the bottom of escape canal (1) is provided with vibration mechanism (8), and vibration mechanism (8) are including setting up vibration board (81) inside escape canal (1), set up in vibration board (81) and the sunken piece (82) of escape canal (1) bottom to and set up spring (83) on sunken piece (82) surface, and the inside of sunken piece (82) is run through and is provided with electromagnetism pole (84), and escape canal (1) are connected with vibration board (81) magnetism through electromagnetism pole (84).

2. The rainwater drainage structure of a sludge treatment zone as set forth in claim 1, wherein: mounting groove (5) are including arc wall (51) of fixed mounting in mounting groove (5) upper surface, the activity sets up magnetism lug (52) inside arc wall (51), set up slotted hole (54) on mounting groove (5) inner wall, and set up inside meeting of slotted hole (54) and answer mechanism (53), the inside of mounting groove (5) still is provided with drive mechanism (55), drive mechanism (55) are corresponding with arc wall (51), fixed mounting has magnetic stripe (11) on the lower bottom surface of escape canal (1), escape canal (1) are connected with magnetism lug (52) through magnetic stripe (11).

3. The rainwater drainage structure of a sludge treatment zone as set forth in claim 2, characterized in that: the receiving mechanism (53) includes a feeding-out assembly (532) disposed inside the slot (54), and a guide assembly (531) disposed at one end of the feeding-out assembly (532).

4. The rainwater drainage structure of a sludge treatment zone as set forth in claim 3, characterized in that: the guide assembly (531) comprises a guide plate (5311) and a triangular plate (5314) arranged on the outer surface of the guide plate (5311), wherein a drainage groove (5312) is formed in one side of the guide plate (5311), a bottom groove (5313) is formed in the other side of the guide plate (5311), a bottom block (5315) is arranged on the outer surface of the triangular plate (5314), the triangular plate (5314) is movably connected with the bottom groove (5313) through the bottom block (5315), a telescopic bent pipe (5316) is fixedly installed at one end of the triangular plate (5314), and one end of the telescopic bent pipe (5316) is connected with the inner wall of the bottom groove (5313).

5. The rainwater drainage structure of a sludge treatment zone as set forth in claim 3, characterized in that: the feeding-out assembly (532) comprises a parallel telescopic rod (5321) with one end arranged inside the slotted hole (54) and a vertical telescopic rod (5322) arranged at one end of the parallel telescopic rod (5321), an inclined plate (5323) is fixedly arranged at the upper end of the vertical telescopic rod (5322), the vertical telescopic rod (5322) is fixedly connected with the lower bottom surface of the guide plate (5311) through the inclined plate (5323), and the parallel telescopic rod (5321) and the vertical telescopic rod (5322) are both connected with an external air pump.

6. The rainwater drainage structure of a sludge treatment zone as set forth in claim 2, characterized in that: the traction mechanism (55) comprises an inner groove (551) arranged at the bottom of the mounting groove (5), a support block (552) arranged inside the inner groove (551), and an electric push rod (553) arranged on one side of the support block (552), one end of the electric push rod (553) is connected with the inner groove (551), a lifting rod (554) is fixedly arranged on the upper surface of the support block (552), a semicircular magnetic block (555) is fixedly arranged at the upper end of the lifting rod (554), the semicircular magnetic block (555) is magnetically connected with the magnetic bump (52), and the magnetic bump (52) is movably connected with the support block (552) through the semicircular magnetic block (555).

7. The rainwater drainage structure of a sludge treatment zone as set forth in claim 1, wherein: the energy storage mechanism (6) comprises an energy storage box (61) arranged inside the flood interception ditch (2), a discharge assembly (62) arranged on one side of the energy storage box (61), and a wall groove plate (63) arranged on the inner wall of the energy storage box (61), a moving member (64) is arranged inside the wall groove plate (63), a flat plate (65) is fixedly arranged on the upper surface of the moving member (64), a filter screen (66) is arranged on the outer surface of the flat plate (65), the lower end of the moving member (64) is connected with a telescopic member arranged inside the wall groove plate (63), the energy storage box (61) is communicated with the drainage ditch (1) through a main telescopic pipe (41), and a rotating mechanism (7) is arranged on one side of the energy storage mechanism (6).

8. The rainwater drainage structure of a sludge treatment zone as set forth in claim 7, characterized in that: the rotating mechanism (7) comprises a support rod (71) penetrating through the interior of the flood intercepting ditch (2), a paddle (72) sleeved on the outer surface of the support rod (71) and an external connecting shaft (73) arranged at one end of the support rod (71), and the support rod (71) is connected with an external generator through the external connecting shaft (73).

9. The rainwater drainage structure of a sludge treatment zone as set forth in claim 7, characterized in that: the discharging assembly (62) comprises a discharging pipe (621) arranged on the outer surface of the energy storage tank (61), a blocking ball (622) placed inside the discharging pipe (621), and an adsorption magnetic plate (623) arranged at the bottom of the discharging pipe (621).

10. The rainwater drainage structure of a sludge treatment zone as set forth in claim 9, wherein: the plugging ball body (622) is magnetically connected with the adsorption magnetic plate (623), a casing (624) is fixedly mounted on the outer surface of the discharge pipe (621), an electromagnetic column (625) penetrates through the outer surface of the casing (624), and the aperture size of the casing (624) is matched with the diameter of the plugging ball body (622).

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