CN113123310A - River levee drain self-adaptation sewage treatment device - Google Patents

Abstract

The invention discloses a river bank sewage outlet self-adaptive sewage treatment device which comprises fixing rods arranged on two sides of a river bank, an anti-shaking assembly fixed at the bottom of a river channel and a floating frame assembly floating on the water surface, wherein the floating frame assembly is connected to the side surfaces of the fixing rods in a sliding mode, and the end part of the anti-shaking assembly is fixedly connected with the bottom end of the floating frame assembly. According to the invention, by arranging the anti-shaking assembly, when the floating frame assembly normally floats on the water surface, the pulling rope pulls the floating barrel to be immersed in the water, stable downward pulling force is applied to the floating frame assembly, and the downward pulling force provided by the floating barrel to the floating frame assembly is utilized, so that the effect of inhibiting the floating frame assembly from shaking up and down caused by water waves is achieved, and the risk of fracture of the joint of the floating frame assembly is reduced; by utilizing the swinging of the swinging frame, the moving rod is prevented from frequently moving up and down along with the water waves, and the aim of stabilizing the moving rod is fulfilled, so that frequent movement between the moving rod and the fixed rod is reduced, and the probability of fracture of the joint is reduced.

Description

River levee drain self-adaptation sewage treatment device

Technical Field

The invention relates to the technical field of river sewage treatment. In particular to a self-adaptive sewage treatment device for a drainage outlet of a river bank.

Background

With the improvement of environmental protection consciousness of people, the requirements of governments and people on environmental protection are gradually improved; at present, river drain sewage treatment, generally through the frame that floats at the surface of water plus the equipment of filtration and treatment of sewage, handles sewage, because the river exists and flows, the surface of water can have certain fluctuation under the normal condition, runs into bad weather such as strong wind, can further aggravate the fluctuation of the surface of water, and the fluctuation of surface of water drives body frame and rocks together, and is long-lived, leads to frame junction material fatigue, produces not hard up, arouses the frame fracture pine to take off.

Disclosure of Invention

Therefore, the invention aims to provide the river levee sewage draining exit self-adaptive sewage treatment equipment which can avoid the fracture of the floating body frame caused by the fluctuation of the water surface.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides a river levee drain self-adaptation sewage treatment device, is including setting up the dead lever in river levee both sides, fixing at the anti subassembly of shaking of river course bottom and the floating frame subassembly that floats at the surface of water, floating frame subassembly sliding connection be in the side of dead lever, the tip of anti subassembly of shaking with the bottom fixed connection of floating frame subassembly. Through setting up anti-shaking assembly, can reduce and restrain body frame that the water wave arouses and rock to reduce the cracked possibility of frame junction.

The river levee drain self-adaptation sewage treatment device comprises a first vertical pipe, a second vertical pipe, a transverse pipe, a floating barrel and a pull rope, wherein the second end of the first vertical pipe is communicated with the first end of the transverse pipe, the second end of the transverse pipe is communicated with the second end of the second vertical pipe, the floating barrel is positioned in the second vertical pipe, resistance guide wheels are fixedly connected to two ends of the inner side wall of the transverse pipe, the second end of the pull rope sequentially penetrates through the first vertical pipe, the resistance guide wheel at the first end of the transverse pipe, the transverse pipe and the resistance guide wheel at the second end of the transverse pipe and penetrates into the second vertical pipe, the second end of the pull rope is fixedly connected with the end of the floating barrel, a water inlet groove is formed in the side wall of the second vertical pipe along the axial direction of the side wall of the second vertical pipe, and a. Through setting up the flotation pontoon, the buoyancy of the complete submergence of flotation pontoon in aquatic is comparatively stable, can provide stable pulling force down to floating frame subassembly to resist the water wave and rock from top to bottom that floating frame subassembly brought.

According to the river levee sewage draining exit self-adaptive sewage treatment equipment, the first vertical pipe and the second vertical pipe are parallel to each other; the first vertical pipe and the second vertical pipe are both vertically arranged at the bottom of the river channel. The vertical setting of first riser and second riser is in the river course bottom, can avoid the flotation pontoon to reciprocate the lateral wall of time friction second riser, avoids the lateral wall of stay cord friction first riser simultaneously.

The river levee sewage draining outlet self-adaptive sewage treatment equipment comprises a fixed shaft, an inner wheel and an outer rotating cylinder, wherein the inner wheel is coaxially and fixedly connected to the surface of the fixed shaft, the outer rotating cylinder is sleeved on the inner wheel, bearings are sleeved at two ends of the fixed shaft, the circumferential outer side wall of each bearing is in lap joint with the inner side wall of the outer rotating cylinder, a rectangular groove is formed in the circumferential side wall of the inner wheel along the radial direction of the inner wheel, a top block is movably arranged in the rectangular groove in a penetrating manner, a spring is fixedly connected to the bottom of the rectangular groove, the other end of the spring is fixedly connected with one end, close to the axis of the fixed shaft, of the top block, a rolling shaft is movably connected to one end, far away from the axis of the fixed shaft, two or more than two clamping grooves are formed in the axial direction of the inner side wall of the outer, the side wall of the rolling shaft is lapped in the clamping groove, and the outer side wall of the outer rotating cylinder is provided with an arc groove along the circumferential direction; the pull rope is lapped in the arc groove, the end part of the fixed shaft is fixedly connected with the inner side wall of the transverse pipe, and the axis of the fixed shaft is perpendicular to the axis of the first vertical pipe and the axis of the driving transverse pipe respectively. Through setting up the resistance guide pulley, can provide certain resistance for the stay cord removes, provides certain resistance for the motion of floating the frame subassembly, floats the frame subassembly promptly and just can shift up the rotation resistance who overcomes the resistance guide pulley to avoid the little fluctuation of the surface of water to cause and float the frame subassembly and rock.

The river levee sewage outlet self-adaptive sewage treatment equipment comprises a floating frame assembly, a floating frame assembly and a floating frame assembly, wherein the floating frame assembly comprises a moving rod, a swing frame, a first floating body and a second floating body, two ends of the swing frame are hinged with the inner walls of two sides of the swing frame, the first floating body is hinged with one end of the swing frame, the second floating body is hinged with the other end of the swing frame, and two ends of the moving rod are fixedly connected with clamping blocks; two the guide way has all been seted up along its length direction to the opposite face of dead lever, fixture block sliding connection be in the guide way. Through setting up the swing span, first body and second body can be with the pin joint up-and-down motion of swing span and carriage release lever, when the surface of water has the fluctuation, and when the water level height does not have big change, because first body and second body are along the swing span luffing motion, the carriage release lever is located the center of swing span, and the water wave can not cause rocking of carriage release lever.

The swinging frame comprises two V-shaped rods and a connecting rod which are oppositely arranged, two ends of the connecting rod are fixedly connected with the side walls of the two V-shaped rods respectively, a pin shaft is fixedly connected between the opposite surfaces of the two V-shaped rods, and two ends of the two V-shaped rods are provided with hinge holes; the pin holes are formed in the two ends of the moving rod along the length direction of the moving rod, and the pin shaft is rotatably connected in the pin holes in the end portion of the moving rod.

In the self-adaptive sewage treatment device for the discharge port of the river levee, the first floating body and the second floating body have the same structure, the first floating body comprises an outer shell and an inner mesh cover, the inner mesh cover is arranged inside the outer shell, the outer side wall of the inner mesh enclosure is lapped with the inner side wall of the outer shell body, a garbage collecting opening is arranged on the vertical surface of one side of the outer shell body in the length direction, two or more than two baffle rods are fixedly connected on the side wall of the inner mesh enclosure adjacent to the garbage collection port, the axes of the two or more than two baffle rods are parallel to the bottom of the outer shell, the stop lever extends towards the inside of the outer shell, the bottom of the outer shell and the lower part of the side wall opposite to the garbage collecting opening are both provided with a drainage channel, the two sides of the outer shell are symmetrically and fixedly connected with buoyancy blocks, and the middle parts of the two ends of the outer shell are fixedly connected with articulated shafts; articulated shafts at two ends of the first floating body outer shell are hinged with the articulated holes at the first ends of the two V-shaped rods in the swing frame, and articulated shafts at two ends of the second floating body outer shell are hinged with the articulated holes at the second ends of the two V-shaped rods in the swing frame. Through setting up first drawing and second body, first body and second body can float on the surface of water all the time to collect the rubbish that floats on the surface of water through the refuse collection mouth, and in getting into the shell body, be provided with the screen panel in the shell body, can be convenient for rubbish concentrate inside it, thereby be convenient for clear up fast.

Above-mentioned river levee drain self-adaptation sewage treatment device, the garbage collection mouth of first body with the garbage collection mouth of second body all faces the rivers direction.

According to the river levee sewage outlet self-adaptive sewage treatment equipment, the first end of the pull rope of the anti-shaking assembly is fixedly connected with the bottom of the moving rod of the floating frame assembly, and the buoyancy of the floating cylinder in the anti-shaking assembly is smaller than the sum of the buoyancy of the first floating body and the buoyancy of the second floating body in the floating frame assembly.

The technical scheme of the invention achieves the following beneficial technical effects:

1. according to the invention, the anti-shaking assembly is arranged, when the floating frame assembly normally floats on the water surface, the floating barrel is pulled by the pull rope to be immersed in the water, the buoyancy of the floating barrel immersed in the water is stable, the floating barrel has upward floating force in the water, the floating barrel pulls the floating frame assembly downwards after passing through the pull rope and two guide wheels, and stable pulling force is applied to the floating frame assembly, so that when the water surface fluctuates, the pulling force provided by the floating barrel to the floating frame assembly is utilized, the effect of inhibiting the floating frame assembly from shaking upwards and downwards caused by water waves is achieved, the floating frame assembly is kept stable, and the risk of fracture of the joint of the floating frame assembly is reduced.

2. According to the invention, the resistance guide wheel is arranged, the resistance guide wheel has certain resistance when rotating, the floating frame assembly can pull the pull rope to move together when moving up and down under the influence of water waves, and the water waves can cause the floating frame assembly to shake only when the force of the water waves driving the floating frame assembly to move up and down is greater than the resistance of the resistance guide wheel, so that the floating frame assembly is shaken due to the filtering of smaller water waves, and the stability of the floating frame assembly is improved.

3. According to the invention, the first floating body and the second floating body which are hinged at two ends of the swing frame are arranged, and the middle position of the swing frame is hinged with the movable rod, so that the water waves generally show the state of the waves, when the water waves sequentially pass through the second floating body and the first floating body, the second floating body and the first floating body move along with the water waves, and the movable rod is prevented from frequently moving up and down along with the water waves by utilizing the swing of the swing frame, so that the aim of stabilizing the movable rod is achieved, the frequent movement between the movable rod and the fixed rod is reduced, and the probability of fracture of the joint is reduced; through the cooperation that sets up interior screen panel and shell body, can collect the showy rubbish of water face, and the shelves pole of interior screen panel one side can avoid the body rubbish to float out from the screen panel when sinking.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic view of an elevation cross-sectional structure of the anti-sloshing assembly of the present invention;

FIG. 3 is a schematic front sectional view of a resistance roller according to the present invention;

FIG. 4 is a schematic side sectional view of a drag roller of the present invention;

FIG. 5 is a perspective view illustrating the assembly of the fixing rod and the floating frame assembly according to the present invention;

FIG. 6 is a schematic top view of the assembly of the fixing rods and the floating frame assembly of the present invention;

FIG. 7 is an enlarged view of FIG. 6A of the present invention;

FIG. 8 is a perspective view of the swing frame of the present invention;

FIG. 9 is a schematic side sectional view of the first float of the present invention;

FIG. 10 is a schematic view of the wave of water passing through the second float of the present invention;

fig. 11 is a schematic view of the wave of water passing through the first float according to the present invention.

The reference numbers in the figures denote: 1-an anti-sloshing assembly; 101-a first riser; 102-a transverse tube; 103-a second riser; 104-a pull rope; 105-a water inlet tank; 106-a buoy; 107-resistance guide wheels; 108-a fixed shaft; 109-inner wheel; 110-outer rotating cylinder; 111-card slot; 112-arc groove; 113-a rectangular slot; 114-a spring; 115-top block; 116-a roller; 117-shaft sleeve; 2-fixing the rod; 21-a guide groove; 3-a floating frame assembly; 31-a moving rod; 311-a fixture block; 32-a swing frame; 321-a V-shaped rod; 322-pin shaft; 323-connecting rod; 33-a first float; 331-an outer shell; 332-a buoyancy block; 333-drainage groove; 334-inner net cover; 335-a waste collection port; 336-gear lever; 34-a second float.

Detailed Description

Referring to fig. 1, the adaptive sewage treatment equipment for the sewage discharge port of the river bank comprises fixing rods 2 arranged on two sides of the river bank, an anti-shaking assembly 1 fixed at the bottom of a river channel and a floating frame assembly 3 floating on the water surface, wherein the floating frame assembly 3 is slidably connected to the side surfaces of the fixing rods 2, and the end part of the anti-shaking assembly 1 is fixedly connected with the bottom end of the floating frame assembly 3.

As shown in fig. 2, the anti-sloshing assembly 1 includes a first riser pipe 101, a second riser pipe 103, a cross pipe 102, a pontoon 106 and a pull rope 104, the second end of the first riser 101 is in communication with the first end of the cross tube 102, the second end of the cross tube 102 is in communication with the second end of the second riser 103, the buoy 106 is positioned in the second vertical pipe 103, both ends of the inner side wall of the transverse pipe 102 are fixedly connected with resistance guide wheels 107, the second end of the pull rope 104 sequentially passes through the first vertical pipe 101, the resistance guide wheel 107 at the first end of the transverse pipe 102, the transverse pipe 102 and the resistance guide wheel 107 at the second end of the transverse pipe 102 and penetrates into the second vertical pipe 103, the second end of the pull rope 104 is fixedly connected with the end of the buoy 106, the side wall of the second vertical pipe 103 is provided with a water inlet groove 105 along the axial direction, a filter screen is arranged in the water inlet tank 105, and the first vertical pipe 101 and the second vertical pipe 103 are parallel to each other; the first vertical pipe 101 and the second vertical pipe 103 are both vertically arranged at the bottom of the river channel; through setting up anti subassembly 1 of shaking, when floating frame subassembly 3 normally floats at the surface of water, through stay cord 104 pulling flotation pontoon 106 submergence in the aquatic, the flotation pontoon 106 buoyancy of submergence in the aquatic tends to stably, flotation pontoon 106 has upwards unsteady power in the aquatic, flotation pontoon 106 passes through stay cord 104 and through two guide pulleys back pull-down floating frame subassembly 3, exert stable pull-down force to floating frame subassembly 3, thereby when the surface of water is undulant, utilize the lower pulling force that flotation pontoon 106 provided to floating frame subassembly 3, thereby play the effect that restraines the ripples and arouse floating frame subassembly 3 and rock from top to bottom, make floating frame subassembly 3 remain stable, reduce the cracked risk of floating frame subassembly 3 junction.

As shown in fig. 3 and 4, the resistance guide wheel 107 includes a fixing shaft 108, an inner wheel 109 and an outer cylinder 110, the inner wheel 109 is coaxially and fixedly connected to the surface of the fixing shaft 108, the outer cylinder 110 is sleeved on the inner wheel 109, bearings are sleeved at both ends of the fixing shaft 108, the circumferential outer side wall of each bearing is overlapped with the inner side wall of the outer cylinder 110, a rectangular groove 113 is radially formed in the circumferential side wall of the inner wheel 109, a top block 115 is movably inserted into the rectangular groove 113, a spring 114 is fixedly connected to the bottom of the rectangular groove 113, the other end of the spring 114 is fixedly connected to one end of the top block 115 close to the axis of the fixing shaft 108, a roller 116 is movably connected to one end of the top block 115 far from the axis of the fixing shaft 108, two or more than two slots 111 are axially formed in the inner side wall of the outer cylinder 110, and the two or more than two slots 111 are uniformly formed along the circumferential, the side wall of the roller 116 is lapped in the slot 111, and the outer side wall of the outer rotary drum 110 is provided with an arc slot 112 along the circumferential direction; the pull rope 104 is lapped in the arc groove 112, the end of the fixed shaft 108 is fixedly connected with the inner side wall of the transverse pipe 102, and the axis of the fixed shaft 108 is respectively perpendicular to the axis of the first vertical pipe 101 and the axis of the horizontal pipe 102. Through setting up resistance guide pulley 107, certain resistance has when resistance guide pulley 107 rotates, when floating frame subassembly 3 received the influence of ripples of water and reciprocated, can stimulate stay cord 104 and move together, only when the ripples of water drive the power that floats frame subassembly 3 up-and-down motion was greater than the resistance of resistance guide pulley 107, the ripples of water could cause floating frame subassembly 3 to rock to it causes floating frame subassembly 3 to rock to have filtered less ripples of water, improves the stability that floats frame subassembly 3.

As shown in fig. 5 and 6, the floating frame assembly 3 includes a movable rod 31, a swing frame 32, a first floating body 33 and a second floating body 34, two ends of the swing frame 32 are hinged to inner walls of two sides of the swing frame 32, the first floating body 33 is hinged to one end of the swing frame 32, the second floating body 34 is hinged to the other end of the swing frame 32, two ends of the movable rod 31 are both fixedly connected with a latch 311, and a garbage collection port 335 of the first floating body 33 and a garbage collection port 335 of the second floating body 34 both face the water flow direction; as shown in fig. 7, the opposite surfaces of the two fixing rods 2 are provided with guide grooves 21 along the length direction thereof, the latch 311 is slidably connected in the guide grooves 21, the first floating body 33 and the second floating body 34 are hinged at the two ends of the swing frame 32, and the middle position of the swing frame 32 is hinged with the moving rod 31, because the water waves generally show the state of those floating, when the water waves sequentially pass through the second floating body 34 and the first floating body 33, the second floating body 34 and the first floating body 33 move along with the water waves, and the swing of the swing frame 32 is utilized, so that the moving rod 31 is prevented from frequently moving up and down along with the water waves, the purpose of stabilizing the moving rod 31 is achieved, the frequent movement between the moving rod 31 and the fixing rods 2 is reduced, and the probability of fracture of the connection position is reduced.

As shown in fig. 8, the swing frame 32 includes two V-shaped rods 321 and a connecting rod 323 which are arranged oppositely, two ends of the connecting rod 323 are respectively and fixedly connected with the side walls of the two V-shaped rods 321, a pin 322 is fixedly connected between the opposite surfaces of the two V-shaped rods 321, and two ends of the two V-shaped rods 321 are provided with hinge holes; both ends of the moving rod 31 are provided with pin holes along the length direction thereof, and the pin shaft 322 is rotatably connected in the pin holes at the end part of the moving rod 31.

The first floating body 33 and the second floating body 34 have the same structure, as shown in fig. 9, the first floating body 33 includes a housing 331 and an inner mesh cap 334, the inner mesh cap 334 is disposed inside the housing 331, an outer side wall of the inner mesh cap 334 is overlapped with an inner side wall of the housing 331, a garbage collection port 335 is disposed on a vertical surface of one side of the housing 331 in the length direction, two or more than two stopper rods 336 are fixedly connected to a side wall of the inner mesh cap 334 adjacent to the garbage collection port 335, axes of the two or more than two stopper rods 336 are parallel to the bottom of the housing 331, garbage floating on the water surface can be collected by arranging the inner mesh cap 334 and the housing 331 in a matching manner, the stopper rods 336 on one side of the inner mesh cap 334 can prevent the garbage from floating out of the mesh cap when the floating body sinks, and drainage grooves 333 are disposed on the bottom of the housing 331 and a lower portion of the side wall opposite to the garbage collection port, the two sides of the outer shell 331 are symmetrically and fixedly connected with buoyancy blocks 332, and the middle parts of the two ends of the outer shell 331 are fixedly connected with hinged shafts; hinge shafts at two ends of the outer shell 331 of the first floating body 33 are hinged to hinge holes at first ends of two V-shaped rods 321 in the swing frame 32, hinge shafts at two ends of the outer shell 331 of the second floating body 34 are hinged to hinge holes at second ends of two V-shaped rods 321 in the swing frame 32, a first end of the pull rope 104 of the anti-sway component 1 is fixedly connected to the bottom of the moving rod 31 of the floating frame component 3, and the buoyancy of the float bowl 106 in the anti-sway component 1 is smaller than the sum of the buoyancy of the first floating body 33 and the buoyancy of the second floating body 34 in the floating frame component 3.

The working process is as follows: when the anti-sway device is used, the anti-sway component 1 is fixed at the bottom of a riverbed, the fixed rod 2 is fixed at two sides of a riverbank, the clamping blocks 311 at two ends of the movable rod 31 in the floating frame component 3 are clamped into the guide grooves 21 on the side walls of the fixed rod 2, so that the floating frame component 3 can move up and down along with the change of water level, the first end of the stay cord 104 is fixedly connected with the middle part of the movable rod 31, the floating pontoon 106 can provide balanced pulling force for the movable rod 31 through the stay cord 104, and the floating pontoon 106 is completely immersed in water at normal water level, and the stay cord 104 is in a tensioning state, so that the lowest part of the garbage collection port 335 of the first floating body 33 and the second; when the sewage flows forwards, garbage floating on the surface of the sewage enters the second floating body 34 or the first floating body 33 along with water flow, the garbage is collected under the action of the inner mesh enclosure 334, and when the garbage needs to be cleaned, the garbage can be taken out by lifting the inner mesh enclosure 334;

when the water level rises, the floating frame assembly 3 rises along with the water level, the pull rope 104 is pulled, the pull rope 104 passes through the two resistance guide wheels 107 to rotate and pull down the floating pontoon 106, when the water level falls, the floating frame assembly 3 falls, the floating pontoon 106 rises and pulls the pull rope 104 tightly, the floating frame assembly 3 is provided with a pull-down force, and the stable pull-down force is always provided for the floating frame assembly 3;

when the resistance guide wheel 107 moves, the fixed shaft 108 and the inner wheel 109 do not rotate, the pull rope 104 drives the outer rotary drum 110 to rotate through the friction force with the surface of the outer rotary drum 110, as shown in fig. 3, when the outer rotary drum 110 rotates, the clamping groove 111 on the inner side wall of the outer rotary drum 110 continuously pushes the roller 116 radially, meanwhile, the top block 115 is pressed down, the top block 115 presses the roller 116 to be always attached to the side wall of the clamping groove 111 under the elastic force action of the spring 114, the roller 116 is sequentially clamped into the next clamping groove 111 along with the rotation of the outer rotary drum 110, and when the outer rotary drum 110 rotates, the elastic force of the spring 114 needs to be overcome, so that the roller 116, the top block 115 and the spring 114 contract, and the outer rotary drum 110 has a;

corresponding sewage treatment equipment such as filtering equipment, chemical treatment equipment and the like is fixed below the movable rod 31 as required; when water waves move from the upstream to the downstream of the water flow, as shown in fig. 10, when the water waves pass through the second floating body 34, the second floating body 34 is enabled to rise, and simultaneously the corresponding end of the swing frame 32 is driven to rise, and the other end of the swing frame 32 drives the first floating body 33 to press down, as shown in fig. 11, when the water waves move downstream and pass through the first floating body 33, the first floating body 33 is driven to rise, and the swing frame 32 drives the second floating body 34 to move down, and the water waves are decomposed by utilizing the swinging of the first floating body 33 and the second floating pontoon 106 to cause the movable rod 31 to swing up and down, so that the stability of the movable rod 31 is improved, and the fracture of the joint of the movable rod 31 and the fixed rod.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications are possible which remain within the scope of the appended claims.

Claims (9)

1. The utility model provides a river levee drain self-adaptation sewage treatment device, its characterized in that, including setting up dead lever (2) in river levee both sides, fix anti-shake subassembly (1) in the river course bottom and float frame subassembly (3) that float at the surface of water, float frame subassembly (3) sliding connection in the side of dead lever (2), the tip of anti-shake subassembly (1) with the bottom fixed connection of floating frame subassembly (3).

2. The adaptive riverbank sewage draining exit sewage treatment equipment according to claim 1, wherein the anti-sloshing assembly (1) comprises a first vertical pipe (101), a second vertical pipe (103), a transverse pipe (102), a buoy (106) and a pull rope (104), the second end of the first vertical pipe (101) is communicated with the first end of the transverse pipe (102), the second end of the transverse pipe (102) is communicated with the second end of the second vertical pipe (103), the buoy (106) is positioned in the second vertical pipe (103), two ends of the inner side wall of the transverse pipe (102) are fixedly connected with resistance guide wheels (107), the second end of the pull rope (104) sequentially penetrates through the first vertical pipe (101), the resistance guide wheels (107) of the first end of the transverse pipe (102), the transverse pipe (102) and the resistance guide wheels (107) of the second end of the transverse pipe (102) and penetrates through the second vertical pipe (103), the second end of the pull rope (104) is fixedly connected with the end part of the buoy (106), a water inlet groove (105) is formed in the side wall of the second vertical pipe (103) along the axial direction of the side wall, and a filter screen is arranged in the water inlet groove (105).

3. The adaptive river levee drain sewage treatment plant according to claim 2 wherein said first riser (101) and said second riser (103) are parallel to each other; the first vertical pipe (101) and the second vertical pipe (103) are both vertically arranged at the bottom of the river channel.

4. The adaptive sewage treatment equipment of the river levee sewage draining exit according to claim 2, wherein the resistance guide wheel (107) comprises a fixed shaft (108), an inner wheel (109) and an outer rotary drum (110), the inner wheel (109) is coaxially and fixedly connected to the surface of the fixed shaft (108), the outer rotary drum (110) is sleeved on the inner wheel (109), bearings are sleeved at two ends of the fixed shaft (108), the circumferential outer side wall of each bearing is overlapped with the inner side wall of the outer rotary drum (110), a rectangular groove (113) is formed in the circumferential side wall of the inner wheel (109) along the radial direction of the circumferential side wall, a top block (115) is movably arranged in the rectangular groove (113) in a penetrating manner, a spring (114) is fixedly connected to the groove bottom of the rectangular groove (113), and the other end of the spring (114) is fixedly connected with one end of the top block (115) close to the axis of the fixed shaft (108), one end, far away from the axis of the fixed shaft (108), of the top block (115) is movably connected with a roller (116), the inner side wall of the outer rotating cylinder (110) is provided with two or more clamping grooves (111) along the axial direction, the two or more clamping grooves (111) are uniformly arranged along the circumferential direction, the side wall of the roller (116) is lapped in the clamping grooves (111), and the outer side wall of the outer rotating cylinder (110) is provided with an arc groove (112) along the circumferential direction; the pull rope (104) is lapped in the arc groove (112), the end part of the fixed shaft (108) is fixedly connected with the inner side wall of the transverse pipe (102), and the axis of the fixed shaft (108) is perpendicular to the axis of the first vertical pipe (101) and the axis of the driving transverse pipe (102) respectively.

5. The adaptive sewage treatment equipment for the sewage outfall of the river levees according to claim 1, wherein the floating frame assembly (3) comprises a moving rod (31), a swinging frame (32), a first floating body (33) and a second floating body (34), two ends of the swinging frame (32) are hinged with the inner walls of two sides of the swinging frame (32), the first floating body (33) is hinged with one end of the swinging frame (32), the second floating body (34) is hinged with the other end of the swinging frame (32), and two ends of the moving rod (31) are fixedly connected with clamping blocks (311); two guide way (21) have all been seted up along its length direction to the opposite face of dead lever (2), fixture block (311) sliding connection be in guide way (21).

6. The adaptive sewage treatment equipment for the sewage outfall of the river levee according to claim 5, wherein the swing frame (32) comprises two V-shaped rods (321) and a connecting rod (323) which are oppositely arranged, two ends of the connecting rod (323) are respectively and fixedly connected with the side walls of the two V-shaped rods (321), the middle of the opposite surfaces of the two V-shaped rods (321) is fixedly connected with a pin shaft (322), and two ends of the two V-shaped rods (321) are provided with hinge holes; both ends of the moving rod (31) are provided with pin holes along the length direction, and the pin shaft (322) is rotatably connected in the pin holes at the end part of the moving rod (31).

7. The adaptive sewage treatment device of the river levee sewage draining exit according to claim 5, wherein the first floating body (33) and the second floating body (34) have the same structure, the first floating body (33) comprises an outer shell (331) and an inner mesh (334), the inner mesh (334) is arranged inside the outer shell (331), the outer side wall of the inner mesh (334) is overlapped with the inner side wall of the outer shell (331), a garbage collecting port (335) is arranged on one vertical surface of the outer shell (331) in the length direction, two or more than two blocking rods (336) are fixedly connected to the side wall of the inner mesh (334) adjacent to the garbage collecting port (335), the axes of the two or more than two blocking rods (336) are parallel to the bottom of the outer shell (331), and the blocking rods (336) extend into the outer shell (331), the bottom of the outer shell (331) and the lower part of the side wall opposite to the garbage collection port (335) are both provided with a drainage channel (333), two sides of the outer shell (331) are symmetrically and fixedly connected with buoyancy blocks (332), and the middle parts of two ends of the outer shell (331) are both fixedly connected with hinged shafts; articulated shafts at two ends of the outer shell (331) of the first floating body (33) are articulated with articulated holes at first ends of the two V-shaped rods (321) in the swing frame (32), and articulated shafts at two ends of the outer shell (331) of the second floating body (34) are articulated with articulated holes at second ends of the two V-shaped rods (321) in the swing frame (32).

8. The adaptive sewage treatment equipment of the river levee sewage drain according to claim 7 wherein the garbage collection port (335) of the first float (33) and the garbage collection port (335) of the second float (34) are both directed towards the water flow direction.

9. The adaptive sewage treatment equipment for the drainage port of the river bank according to claim 1, wherein a first end of a pull rope (104) of the anti-sloshing assembly (1) is fixedly connected with the bottom of a movable rod (31) of the floating frame assembly (3), and the buoyancy of a buoy (106) in the anti-sloshing assembly (1) is smaller than the sum of the buoyancy of the first floating body (33) and the buoyancy of the second floating body (34) in the floating frame assembly (3).

Images