CN116375218B - Immersed river and lake water quality purifying treatment device - Google Patents

Abstract

The invention relates to an immersed river and lake water purification treatment device which comprises main equipment, a reaction cavity arranged in the main equipment, a plurality of water inlets which are arranged at the head end of the main equipment and are distributed at equal intervals, a plurality of water outlets which are arranged at the tail end of the main equipment and are distributed at equal intervals, a first air bag and a second air bag which are arranged at two sides of the main equipment, and an aeration mechanism arranged on the second air bag, wherein the first air bag and the second air bag are arranged at the same time; a plurality of groups of propagation mechanisms for nitrifying bacteria to self-propagate are arranged in the reaction cavity; the water inlet hole is provided with a cleaning mechanism for cleaning sundries in water; sundries at the water inlet hole are cleaned through the cleaning mechanism, so that the water inlet hole cannot be blocked, water can enter from the water inlet hole, meanwhile, the first carrier piece and the second carrier piece relatively or reversely rotate and simultaneously move in opposite directions, each surface of the nitrifying bacteria carrier can be in full contact with water, the propagation speed of nitrifying bacteria is increased, and meanwhile, the purification speed of water quality is also increased.

Description

Immersed river and lake water quality purifying treatment device

Technical Field

The invention relates to the technical field of water quality purification, in particular to an immersed river and lake water quality purification treatment device.

Background

The water environment is closely related to the survival and development of human beings, the river or river section which originates from or flows through the urban area is called an urban river channel, the urban river channel water is taken as important content of urban ecological environment, the water environment plays an important role in various aspects of urban ecological construction, transportation, environment regulation, water source supply and the like, and the healthy urban water body environment is an important guarantee for urban sustainable development. Along with the rapid development of social economy, the global water demand is increased continuously, and the water pollution is increased continuously, so that the shortage of water resources in the whole world is caused, the urgent need for the human beings to purify the water quality of the river and lake water bodies is urgent, so that the functional requirements of the river and lake water bodies are recovered, the water resource utilization rate is improved, and a good ecological system is constructed. The existing purification device for treating the water body of the river and the lake has the following defects: the nitrifying bacteria carrier is fixedly arranged in the main equipment, then the nitrifying bacteria carrier is used for realizing the self-propagation of nitrifying bacteria, and further, the water quality of the river and lake water is purified, but as the nitrifying bacteria carrier is fixedly arranged and water flows towards one direction, one surface of the nitrifying bacteria carrier faces away from the water flow surface, so that the surface of the nitrifying bacteria carrier cannot be fully contacted with the water, the propagation speed of nitrifying bacteria is reduced, and meanwhile, the purification efficiency of the water quality is also reduced; when the water purification device is used for purifying, water flows into the main equipment through the water inlet, then water is purified through nitrifying bacteria, and finally flows out through the water outlet, but impurities exist in the water in the river and the lake, so that the water can not flow into the main equipment from the water inlet due to the blocking of the water inlet.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides the immersed river and lake water quality purifying treatment device, which can clean sundries at the water inlet hole through the cleaning mechanism, so that the water inlet hole is not blocked, the water quality purifying efficiency is further improved, meanwhile, after water flows into the main equipment through the water inlet hole, the first carrier piece and the second carrier piece relatively or reversely rotate and simultaneously move in opposite directions, so that each surface of the nitrifying bacteria carrier can be fully contacted with the water, the propagation speed of nitrifying bacteria is further increased, and the water quality purifying speed and efficiency are also improved.

The technical scheme adopted for solving the technical problems is as follows: the immersed river and lake water purification treatment device comprises a main device, a reaction cavity arranged in the main device, a plurality of water inlet holes which are arranged at the head end of the main device and are distributed at equal intervals, a plurality of water outlet holes which are arranged at the tail end of the main device and are distributed at equal intervals, a first air bag and a second air bag which are arranged on two sides of the main device, and an aeration mechanism arranged on the second air bag; the first air bag and the second air bag are communicated through a U-shaped connecting pipe; a plurality of groups of propagation mechanisms for nitrifying bacteria to self-propagate are arranged in the reaction cavity; the water inlet hole is provided with a cleaning mechanism for cleaning sundries in water; a first driving mechanism for driving the cleaning mechanism to clean sundries is arranged in the side wall of the main equipment; the tail end of the holding device is also provided with a second driving mechanism for driving the main device to move under water; the first driving mechanism comprises a first cavity arranged in the side wall of the main equipment, a first motor arranged in the first cavity and one end of which is arranged on the main equipment, and a first threaded rod of which one end is arranged on the first motor and the other end is arranged on the main equipment; the cleaning mechanism comprises a first shaft and a second shaft which are rotatably arranged at the water inlet, a first rotary rod fixedly sleeved on the first shaft, a second rotary rod fixedly sleeved on the second shaft, a first gear which is arranged in the first cavity and fixedly sleeved on the first shaft, a second gear which is arranged in the first cavity and fixedly sleeved on the second shaft, a third gear sleeved on the first threaded rod and a self-cleaning assembly arranged outside the water inlet; the first gear is meshed with the second gear, and the third gear is meshed with the first gear; the inner side of the water inlet is provided with a heating component, and the heating component comprises a water inlet channel communicated with the water inlet, a water inlet pipeline communicated with the water inlet channel and heating equipment arranged on the water inlet pipeline; firstly, the device is placed in water for use, nitrifying bacteria are placed on nitrifying bacteria carriers, and the water quality of river and lake water bodies is purified through nitrifying bacteria; then the first air bag and the second air bag are inflated or deflated through the suction pump, so that the whole device can suspend, and meanwhile, aeration is carried out in the main equipment through the aeration mechanism, so that nitrifying bacteria can carry out aerobic propagation; meanwhile, water flows into the main equipment from the water inlet hole, is heated through the heating equipment, so that propagation of nitrifying bacteria is facilitated, meanwhile, the first motor is driven to enable the second driving mechanism to work and enable the whole device to move, the first motor drives the first carrier piece and the second carrier piece to rotate in the opposite direction or the opposite direction, water in the main equipment is evenly stirred, the water flow direction and the water flow speed of the water are changed, meanwhile, the first carrier piece and the second carrier piece can also move relatively or in the opposite direction, and all surfaces on nitrifying bacteria carriers can be fully contacted with the water, so that the nitrifying bacteria can be propagated fast, and meanwhile, the water quality purifying speed of the nitrifying bacteria is increased; in addition, the inlet opening department sets up two and changes the rod, makes two and changes the rod through first motor and can carry out the rotation of opposite direction for can flow outside the inlet opening, and then can preliminary clear up the debris in the water, make debris can not block up the inlet opening, first motor drive self-cleaning subassembly work simultaneously, make first division board, second division board and the continuous rotation of third division board, and then can push away the debris of inlet opening department, make inlet opening department not have debris, and then can not block up the inlet opening, water can follow the inlet opening and get into.

Specifically, the self-cleaning assembly comprises a groove arranged on the side wall of the main equipment, a fourth gear fixedly sleeved on the first shaft, a supporting rod fixedly arranged on the main equipment, a third shaft rotatably arranged on the supporting rod, a fifth gear fixedly sleeved on the third shaft, a first conveying belt with one end sleeved on the fourth gear and the other end sleeved on the fifth gear, a first connecting rod with one end fixedly sleeved on the third shaft, a second connecting rod with one end rotatably arranged on the first connecting rod, a third connecting rod with one end rotatably arranged on the second connecting rod, a first supporting rod and a second supporting rod fixedly arranged on the main equipment, a first rotating shaft with one end penetrating through the first supporting rod and the other end penetrating through the first rotating shaft rotatably arranged on the second supporting rod, a second rotating shaft with one end penetrating through the first rotating rod and the other end penetrating through the second rotating rod, a first distributing plate and a second distributing plate with one end fixedly sleeved on the first rotating shaft, a third distributing plate with one end fixedly sleeved on the second shaft arranged between the first distributing plate and the second distributing plate, a third rotating shaft with one end rotatably arranged on the first rotating rod and a second rotating rod with one end penetrating through the first rotating rod and a seventh rotating rod arranged on the second rotating rod and a second rotating rod with one end rotatably arranged on the second rotating rod and a seventh rotating rod and the other end rotatably arranged on the first rotating rod and the second rotating rod; the other end of the third connecting rod is fixedly arranged on the first rotating shaft.

Specifically, the aeration mechanism comprises aeration equipment arranged on the second air bag, a first aeration pipe arranged on the aeration equipment and one end of which is arranged outside the water surface, a second aeration pipe arranged in the side wall of the main equipment and one end of which is communicated with the first aeration pipe, an aeration plate arranged in the reaction cavity and fixedly arranged at the bottom of the main equipment, an aeration cavity arranged in the aeration plate, and a plurality of aeration holes arranged on the aeration plate and communicated with the aeration cavity; the aeration cavity is communicated with the second aeration pipe; a valve is arranged on the second aerator pipe; a suction pump is arranged in the second air bag; one end of the suction pump is communicated with the air bag, and the other end of the suction pump is communicated with the first aeration pipe.

Specifically, the second driving mechanism comprises a water slurry with one end rotatably arranged on the main equipment, a second cavity which is arranged on the side wall of the main equipment and is communicated with the first cavity, a long shaft with one end fixedly arranged on the water slurry and the other end penetrating through the main equipment and rotatably arranged on the main equipment, a first rotating wheel fixedly sleeved on the long shaft, a second rotating wheel which is arranged in the second cavity and can rotate on the main equipment, and a second conveying belt with one end sleeved on the first rotating wheel and the other end sleeved on the second rotating wheel; the second rotating wheel is meshed with the first threaded rod.

Specifically, the propagation mechanism comprises a third cavity and a fourth cavity which are arranged in the side wall of the main equipment, a second motor which is arranged in the third cavity and one end of which is arranged on the main equipment, a second threaded rod which is arranged on the second motor and the other end of which is arranged on the main equipment, a third threaded rod which is arranged in the fourth cavity and two ends of which are all rotatable and arranged on the main equipment, and an adjusting component for adjusting the rotating speed of the fourth threaded rod.

Specifically, the adjusting component comprises a first wheel fixedly sleeved on the water slurry, a connecting column with one end penetrating through the side wall of the main equipment and rotatably arranged on the side wall of the main equipment, a second wheel fixedly sleeved on the connecting column, a third wheel rotatably arranged on the outer wall of the main equipment, a third conveyor belt with one end sleeved on the first wheel and the other end sleeved on the third wheel, a fourth conveyor belt with one end sleeved on the second wheel and the other end sleeved on the third wheel, a second cover body arranged on the main equipment and a U-shaped bracket fixedly arranged in a fourth cavity; the other end of the connecting column is rotatably arranged on the U-shaped bracket.

Specifically, the adjusting component further comprises a base fixedly arranged on the U-shaped bracket, a third motor arranged on the base, a fourth threaded rod with one end arranged on the third motor and penetrating through the U-shaped bracket in a rotatable manner, a guide rod rotatably arranged on the U-shaped bracket, a universal joint with one end arranged on the connecting column and the other end arranged on the guide rod, a sliding block sleeved on the fourth threaded rod, a connecting rod fixedly arranged on the sliding block, a round wheel rotatably arranged on the connecting rod and slidably sleeved on the guide rod, and a bevel gear sleeved on the third threaded rod; the round wheel is meshed with the bevel gear.

Specifically, the breeding mechanism further comprises a plurality of groups of reaction components arranged in the reaction cavity, wherein each reaction component comprises a first driving shaft, a first bevel gear, a first main gear, a second bevel gear, a first sliding chute and a second sliding chute, a first sliding block, a second sliding block, a first rack, a second rack, a first sealing plate and a second sealing plate, wherein the first driving shaft is arranged in a third cavity, one end of the first driving shaft is rotatably arranged on the main equipment, the first bevel gear is fixedly arranged on the first driving shaft, the first main gear is rotatably arranged on the main equipment, the second bevel gear is fixedly arranged on the first main gear and is meshed with the first bevel gear, the first sliding chute and the second sliding chute are arranged on the main equipment, the first sliding block and the second sliding block are slidably arranged on the first sliding chute, the first rack is fixedly arranged on the first sliding block and is meshed with the first main gear, the second rack is fixedly arranged on the second sliding block and is used for sealing the first sliding block, and the second sealing plate is fixedly arranged on the second sliding block and is used for sealing the second sliding chute; the first sliding block is provided with a first rod, the first rod is provided with a second rod, the second sliding block is provided with a third rod, and the third rod is provided with a fourth rod; the first driving shaft is meshed with the second threaded rod.

Specifically, the reaction assembly further comprises a third chute and a fourth chute which are arranged on the main equipment, a third sliding block which is arranged on the third chute in a sliding manner, a fourth sliding block which is arranged on the fourth chute in a sliding manner, a second driving shaft which is arranged on the third sliding block in a penetrating manner in a rotating manner, a second main gear which is arranged on the second driving shaft in a meshed manner with the third threaded rod in a penetrating manner, a third driving shaft which is arranged on the fourth sliding block in a penetrating manner in a rotating manner, a third main gear which is arranged on the third driving shaft in a meshed manner with the third threaded rod in a penetrating manner, a third sealing plate which is arranged on the third sliding block and is used for sealing the third chute, a fourth sealing plate which is arranged on the fourth sliding block and is used for sealing the fourth chute, a fourth driving shaft which is fixedly arranged on the second driving shaft at one end and rotatably arranged on the second rod at the other end, and a fifth driving shaft which is fixedly arranged on the third driving shaft at the other end and rotatably arranged on the fourth rod.

Specifically, the reaction assembly further comprises a first carrier piece sleeved on the fourth driving shaft and a second carrier piece sleeved on the fifth driving shaft, and the first carrier piece and the second carrier piece have the same structure; the first carrier piece comprises an elliptical rail sleeved on a fourth driving shaft, a first main shaft and a second main shaft which are rotatably arranged on the elliptical rail, a fifth conveying belt, a plurality of nitrifying bacteria carriers, a shell, a third main shaft, a first driving wheel, a first driving rod, a second driving wheel, a casing, a second driving rod, a first sliding block and a second sliding block, wherein one end of the first driving belt is sleeved on the first main shaft, the other end of the fifth conveying belt is sleeved on the second main shaft, the nitrifying bacteria carriers are arranged on the fifth conveying belt and are equidistantly and alternately distributed, the third main shaft is arranged on the elliptical rail in a penetrating manner, the first driving wheel is sleeved on the first main shaft, one end of the first driving wheel is rotatably arranged on the third main shaft, the other end of the first driving rod is meshed with the first driving wheel, the second driving wheel is fixedly sleeved on the fourth driving shaft, one end of the casing is rotatably arranged on the third sliding block, and the other end of the second driving rod is penetrated on the casing; one end of the second transmission rod is meshed with the first transmission rod, and the other end of the second transmission rod is meshed with the second transmission wheel.

The beneficial effects of the invention are as follows:

(1) Firstly, the device is placed in water for use, wherein one end of a first aeration pipe leaks out of the water surface, the first air bag and the second air bag are inflated or deflated through a suction pump, then the main equipment is aerated through an aeration mechanism, so that nitrifying bacteria can be aerobically propagated, meanwhile, water flows into the main equipment from a water inlet hole and is heated through a heating equipment, thereby being more beneficial to nitrifying bacteria propagation, meanwhile, a first motor is driven to enable water slurry to work, the water slurry can enable the whole device to move, the first motor drives a first carrier piece and a second carrier piece to relatively rotate or reversely rotate, water in the main equipment is uniformly stirred, the direction and speed of water flow are changed, the first carrier piece and the second carrier piece can relatively or reversely move, and each surface on a nitrifying bacteria carrier can be fully contacted with the water, so that nitrifying bacteria can be propagated fast, and meanwhile, the purifying speed of nitrifying bacteria on the water is increased; in addition, the two rotary rods are arranged at the water inlet, the two rotary rods can rotate in opposite directions through the first motor, so that water can flow out of the water inlet, sundries in the water can be cleaned preliminarily, the water inlet cannot be blocked by the sundries, meanwhile, the first motor drives the self-cleaning assembly to work, the first distributing plate, the second distributing plate and the third distributing plate continuously rotate, sundries at the water inlet can be pushed away, sundries cannot be caused at the water inlet, the water inlet cannot be blocked, and the purifying efficiency of nitrifying bacteria to water quality is further improved; as the nitrifying bacteria have temperature requirements for self-propagation, in winter, the temperature is lower, the propagation speed of the nitrifying bacteria is influenced, water flowing into the main equipment can be heated through the heating equipment, and then the nitrifying bacteria can be propagated rapidly, and water quality is purified rapidly.

(2) The middle of the elliptical rail is provided with a hollowed-out structure, so that the resistance is reduced, the water flow speed is increased, the nitrifying bacteria carrier can be fully contacted with water, and the water quality purification efficiency is further improved.

(3) When the whole device works, the first motor drives the cleaning mechanism, the breeding mechanism, the second driving mechanism and the like to work, so that the linkage is higher, and meanwhile, the device is simple and easy to operate.

Drawings

The invention will be further described with reference to the drawings and examples.

FIG. 1 is a schematic diagram of the structure of the present invention;

fig. 2 is an enlarged view at a in fig. 1;

FIG. 3 is a rear view of the present invention;

FIG. 4 is a front view of the present invention;

FIG. 5 is a cross-sectional view taken along line A-A of FIG. 4;

FIG. 6 is an enlarged view at B in FIG. 5;

FIG. 7 is a cross-sectional view taken along line B-B of FIG. 5;

FIG. 8 is an enlarged view at C in FIG. 7;

FIG. 9 is a cross-sectional view taken along line C-C of FIG. 5;

fig. 10 is an enlarged view of D in fig. 9;

FIG. 11 is a sectional view taken along line D-D of FIG. 5;

FIG. 12 is a cross-sectional view taken along line E-E of FIG. 11;

FIG. 13 is a cross-sectional view taken along line F-F in FIG. 11;

FIG. 14 is a cross-sectional view taken along line G-G of FIG. 4;

FIG. 15 is a schematic view of a portion of the structure of the present invention;

FIG. 16 is a cross-sectional view taken along line H-H of FIG. 15;

FIG. 17 is a cross-sectional view taken along line I-I of FIG. 15;

FIG. 18 is a cross-sectional view taken along line J-J of FIG. 15;

FIG. 19 is a cross-sectional view taken along line K-K of FIG. 15;

FIG. 20 is a schematic view of a portion of the structure of the present invention;

FIG. 21 is a schematic view of a portion of the structure of the present invention;

fig. 22 is an enlarged view at E in fig. 21.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

As shown in fig. 1-22, the immersed river and lake water purification treatment device provided by the invention comprises a main device 1, a reaction cavity 2 arranged in the main device, a plurality of water inlet holes 3 arranged at the head end of the main device and distributed at equal intervals, a plurality of water outlet holes 4 arranged at the tail end of the main device and distributed at equal intervals, a first air bag 5 and a second air bag 6 arranged at two sides of the main device, and an aeration mechanism 7 arranged on the second air bag; the first air bag and the second air bag are communicated through a U-shaped connecting pipe 8; a plurality of groups of propagation mechanisms 9 for the self propagation of nitrifying bacteria are arranged in the reaction cavity; the water inlet hole is provided with a cleaning mechanism 10 for cleaning sundries in water; a first driving mechanism 11 for driving the cleaning mechanism to clean sundries is arranged in the side wall of the main equipment; the tail end of the living equipment is also provided with a second driving mechanism 12 for driving the main equipment to move underwater; the first driving mechanism 11 comprises a first cavity 111 arranged in the side wall of the main equipment, a first motor 112 arranged in the first cavity and one end of which is arranged on the main equipment, and a first threaded rod 113 arranged on the first motor and the other end of which is arranged on the main equipment; the cleaning mechanism 10 comprises a first shaft 101 and a second shaft 102 which are rotatably arranged at the water inlet, a first rotary roller 103 fixedly sleeved on the first shaft, a second rotary roller 104 fixedly sleeved on the second shaft, a first gear 105 arranged in the first cavity and fixedly sleeved on the first shaft, a second gear 106 arranged in the first cavity and fixedly sleeved on the second shaft, a third gear 107 sleeved on the first threaded rod, and a self-cleaning assembly 108 arranged outside the water inlet; the first gear is meshed with the second gear, and the third gear is meshed with the first gear; the inner side of the water inlet is provided with a heating component 13, and the heating component 13 comprises a water inlet channel 131 communicated with the water inlet, a water inlet pipeline 132 communicated with the water inlet channel and a heating device 133 arranged on the water inlet pipeline; firstly, the device is placed in water for use, nitrifying bacteria are placed on nitrifying bacteria carriers, and the water quality of river and lake water bodies is purified through nitrifying bacteria; then the first air bag and the second air bag are inflated or deflated through the suction pump, so that the whole device can suspend, and meanwhile, aeration is carried out in the main equipment through the aeration mechanism, so that nitrifying bacteria can carry out aerobic propagation; meanwhile, water flows into the main equipment from the water inlet hole and is heated by the heating equipment, so that propagation of nitrifying bacteria is facilitated, the first motor drives the first carrier piece and the second carrier piece to rotate relatively or reversely, water in the main equipment is uniformly stirred, the direction and speed of water flow are changed, the first carrier piece and the second carrier piece can move relatively or reversely, and each surface on the nitrifying bacteria carrier can be in full contact with the water, so that propagation speed of nitrifying bacteria is high, and meanwhile, purification speed of nitrifying bacteria on water quality is increased; in addition, the inlet opening department sets up two and changes the rod, makes two and changes the rod through first motor and can carry out the rotation of opposite direction for can flow outside the inlet opening, and then can preliminary clear up debris in the water, make debris can not block up the inlet opening, simultaneously first motor drive self-cleaning subassembly work, make first division board, second division board and the continuous rotation of third division board, and then can push away the debris of inlet opening department, make inlet opening department not have debris, and then can not block up the inlet opening.

In particular, the method comprises the steps of, the self-cleaning assembly 108 comprises a slot 1081 provided on the side wall of the main device, a fourth gear 1082 fixedly sleeved on the first shaft, a supporting rod 1083 fixedly provided on the main device, a third shaft 1084 rotatably provided on the supporting rod, a fifth gear 1085 fixedly sleeved on the third shaft, a first conveying belt 1086 with one end sleeved on the fourth gear and the other end sleeved on the fifth gear, a first connecting rod 1087 with one end fixedly sleeved on the third shaft, a second connecting rod 1088 with one end rotatably provided on the first connecting rod, a third connecting rod 1089 with one end rotatably provided on the second connecting rod, a first supporting rod 1090 and a second supporting rod 1091 fixedly provided on the main device, a first rotating shaft 1092 with one end penetrating through the first supporting rod and the other end penetrating through the second supporting rod, a second rotating shaft 1093 with one end penetrating through the first supporting rod and the other end penetrating through the second supporting rod the first and second distributing plates 1094 and 1095 with one end fixed and sleeved on the first rotating shaft, the third distributing plate 1096 arranged between the first and second distributing plates and with one end fixed and sleeved on the second rotating shaft, the first rotating rod 1097 with one end rotatably arranged on the first distributing plate and the other end rotatably arranged on the third distributing plate, the second rotating rod 1098 with one end rotatably arranged on the second distributing plate and the other end rotatably arranged on the third distributing plate, the fourth and fifth connecting rods 1099 and 1100 fixedly arranged on the first rotating shaft, the sixth and seventh connecting rods 1101 and 1102 fixedly arranged on the second rotating shaft, the first telescopic rod 1103 with one end rotatably arranged on the fourth connecting rod and the other end rotatably arranged on the sixth connecting rod, the second telescopic rod 1104 with one end rotatably arranged on the fifth connecting rod and the other end rotatably arranged on the seventh connecting rod, A first cover 1105 provided on the main apparatus; the other end of the third connecting rod is fixedly arranged on the first rotating shaft; when the self-cleaning assembly works, the first motor drives the first threaded rod to rotate, then drives the first gear, the second gear and the third gear to rotate, then drives the first shaft and the second shaft to rotate, meanwhile, the first shaft rotates to drive the fourth gear, the first conveying belt and the third shaft, the first connecting rod, the second connecting rod and the third connecting rod to rotate, and the third connecting rod continuously rotates in a reciprocating mode, and then drives the first distributing plate to rotate in the opposite direction and the opposite direction, sundries can be distributed away, so that the sundries cannot block the water inlet hole, and water can enter the water inlet hole rapidly.

Specifically, the aeration mechanism 7 includes an aeration device 71 disposed on the second air bag, a first aeration pipe 72 disposed on the aeration device and having one end disposed outside the water surface, a second aeration pipe 73 disposed in the side wall of the main device and having one end in communication with the first aeration pipe, an aeration plate 74 disposed in the reaction chamber and fixedly disposed at the bottom of the main device, an aeration chamber 75 disposed in the aeration plate, and a plurality of aeration holes 76 disposed on the aeration plate and in communication with the aeration chamber; the aeration cavity is communicated with the second aeration pipe; a valve 77 is arranged on the second aerator pipe; a suction pump 78 is arranged in the second air bag; one end of the suction pump is communicated with the air bag, and the other end of the suction pump is communicated with the first aeration pipe; the aeration equipment is used for sucking oxygen outside the water surface, so that the oxygen enters the main equipment through the first aeration pipe, the second aeration pipe, the aeration plate and the plurality of aeration holes, and meanwhile, the plurality of aeration holes are formed, so that nitrifying bacteria can be rapidly subjected to aerobic propagation; when the device does not work, the device can be closed through the valve; simultaneously, the first air bag and the second air bag can be inflated or deflated through the suction pump, so that the device can suspend in water.

Specifically, the second driving mechanism 12 includes a water slurry feeding 121 with one end rotatably disposed on the main device, a second cavity 122 disposed on a side wall of the main device and in communication with the first cavity, a long shaft 123 with one end fixedly disposed on the water slurry feeding and the other end penetrating and rotatably disposed on the main device, a first rotating wheel 124 fixedly disposed on the long shaft in a sleeved manner, a second rotating wheel 125 disposed in the second cavity and rotatably disposed on the main device, and a second conveying belt 126 with one end sleeved on the first rotating wheel and the other end sleeved on the second rotating wheel; the second rotating wheel is meshed with the first threaded rod; the second runner and the driving belt are driven to rotate when the first motor rotates, the long shaft is driven to rotate, the long shaft drives the water slurry to rotate, and then the whole device can be driven to move, so that water can enter from the water inlet hole, and meanwhile the device can purify the water.

Specifically, the propagation mechanism 9 includes a third cavity 91 and a fourth cavity 92 disposed in a side wall of the main device, a second motor 93 disposed in the third cavity and having one end disposed on the main device, a second threaded rod 94 having one end disposed on the second motor and having the other end disposed on the main device, a third threaded rod 95 disposed in the fourth cavity and having both ends rotatably disposed on the main device, and an adjusting assembly 96 for adjusting a rotation speed of the fourth threaded rod; the second threaded rod can be rotated by a second motor.

Specifically, the adjusting component 96 includes a first wheel 961 fixedly sleeved on the water slurry, a connecting column 962 with one end penetrating through and rotatably arranged on the side wall of the main device, a second wheel 963 fixedly sleeved on the connecting column, a third wheel 964 rotatably arranged on the outer wall of the main device, a third conveyor belt 965 with one end sleeved on the first wheel and the other end sleeved on the third wheel, a fourth conveyor belt 966 with one end sleeved on the second wheel and the other end sleeved on the third wheel, a second cover 967 arranged on the main device, and a U-shaped bracket 968 fixedly arranged in the fourth cavity; the other end of the connecting column is rotatably arranged on the U-shaped bracket; when the water slurry is sent to rotate, the first wheel is driven to rotate, the third driving belt is driven to rotate, the third wheel and the fourth driving belt are driven to rotate, the second wheel is driven to rotate, the connecting column is driven to rotate, meanwhile, the second cover body plays a role in protecting the third driving belt and the fourth driving belt, the effect of the conveying belt is prevented from being influenced by impurities in water, and the conveying process is further stable; meanwhile, the U-shaped bracket plays a role in stabilizing and supporting.

Specifically, the adjusting component 96 further includes a base 969 fixedly disposed on the U-shaped bracket, a third motor 9610 disposed on the base, a fourth threaded rod 9611 with one end disposed on the third motor and penetrating through and rotatably disposed on the U-shaped bracket, a guide rod 9612 rotatably disposed on the U-shaped bracket, a universal joint 9613 with one end disposed on the connecting post and the other end disposed on the guide rod, a slider 9614 sleeved on the fourth threaded rod, a connecting rod 9615 fixedly disposed on the slider, a round wheel 9616 rotatably disposed on the connecting rod and slidably sleeved on the guide rod, and a bevel gear 9617 sleeved on the third threaded rod; the round wheel is meshed with the bevel gear; when the spliced pole rotates, drive the guide bar and rotate, the guide bar drives the round wheel simultaneously and rotates, and then drive bevel gear and third threaded rod and rotate, the round wheel drives bevel gear and rotates, the effect that the pinion drove the gear wheel has been realized, and then it is more laborsaving, play the deceleration effect simultaneously, reduce speed bevel gear and third threaded rod be in order to avoid nitrifying bacteria to throw away, and then need adjust the rotational speed of third threaded rod, when adjusting, open the third motor, make the fourth threaded rod rotate, and then make slider, connecting rod and round wheel remove, and then make round wheel and bevel gear's face different, and then adjusted bevel gear and third threaded rod's rotation.

Specifically, the propagation mechanism 9 further includes a plurality of groups of reaction components 97 disposed in the reaction cavity, where the reaction components 97 include a first driving shaft 971 disposed in the third cavity and having one end rotatably disposed on the main device, a first bevel gear 972 fixedly disposed on the first driving shaft, a first main gear 973 rotatably disposed on the main device, a second bevel gear 974 fixedly disposed on the first main gear and engaged with the first bevel gear, a first sliding chute 975 and a second sliding chute 976 disposed on the main device, a first sliding block 977 slidably disposed on the first sliding chute, a second sliding block 978 slidably disposed on the second sliding chute, a first rack 979 fixedly disposed on the first sliding block and engaged with the first main gear, a second rack 9710 fixedly disposed on the second sliding block and engaged with the first main gear, a first sealing plate 9711 fixedly disposed on the first sliding block and used for sealing the first sliding chute, and a second sealing plate 9712 fixedly disposed on the second sliding block and used for sealing the second sliding chute; the first sliding block is provided with a first rod 9713, the first rod is provided with a second rod 9714, the second sliding block is provided with a third rod 9715, and the third rod is provided with a fourth rod 9716; the first driving shaft is meshed with the second threaded rod. When the second motor rotates, the second threaded rod is driven to rotate, the first driving shaft is driven to rotate, the first bevel gear, the second bevel gear and the first main gear are driven to rotate, the first rack and the second rack move in opposite directions, the first sliding block and the second sliding block move in opposite directions, meanwhile, the first sealing plate seals the first sliding groove, the second sealing plate seals the second sliding groove, and water in the main equipment is prevented from entering the three cavities; simultaneously, the first sliding block and the second sliding block can drive the first carrier piece and the second carrier piece to move in the opposite direction or the opposite direction, so that the water flow speed in the main equipment is adjusted, and meanwhile, the water quality purifying speed of nitrifying bacteria is increased.

Specifically, the reaction assembly 97 further includes a third chute 9717 and a fourth chute 9718 provided on the main apparatus, a third sliding block 9719 slidably provided on the third chute, a fourth sliding block 9720 slidably provided on the fourth chute, a second driving shaft 9721 penetrating and rotatably provided on the third chute, a second main gear 9722 provided on the second driving shaft and engaged with the third threaded rod, a third driving shaft 9723 penetrating and rotatably provided on the fourth slider, a third main gear 9724 provided on the third driving shaft and engaged with the third threaded rod, a third sealing plate 9725 provided on the third slider and used for sealing the third chute, a fourth sealing plate 9726 provided on the fourth slider and used for sealing the fourth chute, a fourth driving shaft 9727 having one end fixedly provided on the second driving shaft and the other end rotatably provided on the second rod, and a fifth driving shaft 9728 having one end fixedly provided on the third driving shaft and the other end rotatably provided on the fourth rod; when the third threaded rod rotates, the second main gear and the third main gear rotate, so that the second driving rod and the third driving rod rotate, the first carrier piece and the second carrier piece rotate in the opposite direction or the opposite direction, water in the main equipment is stirred, meanwhile, the direction and the speed of water flow are changed, all sides of the nitrifying bacteria carrier can be fully contacted with the water, quick self-propagation of nitrifying bacteria can be realized, and the purification efficiency of the nitrifying bacteria on the water can be increased; meanwhile, the third sealing plate seals the third sliding groove, the fourth sealing plate seals the fourth sliding groove, and water in the main equipment is prevented from entering the fourth cavity, so that parts in the fourth cavity can keep good transmission; meanwhile, the second driving shaft drives the fourth driving shaft to rotate, and the third driving shaft drives the fifth driving shaft to rotate, so that the first carrier piece and the second carrier piece can rotate.

Specifically, the reaction assembly 97 further includes a first carrier member 9729 sleeved on the fourth driving shaft, and a second carrier member 9730 sleeved on the fifth driving shaft, where the first carrier member and the second carrier member have the same structure; the first carrier 9729 comprises an elliptical rail 97291 sleeved on the fourth driving shaft, a first main shaft 97292 and a second main shaft 97293 rotatably sleeved on the elliptical rail, a fifth conveying belt 97294 with one end sleeved on the first main shaft and the other end sleeved on the second main shaft, a plurality of nitrifying bacteria carriers 97295 which are arranged on the fifth conveying belt and are equidistantly distributed at intervals, a shell 97296 arranged on the elliptical rail, a third main shaft 97297 which is arranged on the first main shaft and can penetrate through and rotate on the elliptical rail, a first driving wheel 97298 sleeved on the third main shaft, a first driving wheel 97299 with one end rotatably arranged on the shell and the other end meshed with the first driving wheel, a second driving wheel 97300 fixedly sleeved on the fourth driving shaft, a sleeve 97301 with one end rotatably arranged on the third sliding block, and a second driving rod 97302 with one end rotatably arranged on the shell and the other end penetrating through and arranged on the sleeve; one end of the second transmission rod is meshed with the first transmission rod, and the other end of the second transmission rod is meshed with the second transmission wheel; when the second main gear rotates, the second driving wheel is driven to rotate, the second driving rod, the first driving rod and the first driving wheel are driven to rotate, the third main shaft is driven to rotate, the first main shaft, the second main shaft and the fifth conveying belt are driven to rotate, a plurality of nitrifying bacteria carriers on the fifth conveying belt rotate along the track of the fifth conveying belt, and each surface of the nitrifying bacteria carriers can be fully contacted with water again, so that the purifying efficiency of nitrifying bacteria on water quality is increased; the casing and the shell play a role in protecting the whole transmission; meanwhile, the middle of the elliptical rail is provided with the hollowed-out part, so that water can rapidly pass through the hollowed-out part, the resistance is reduced, and nitrifying bacteria can rapidly purify the water quality of the water body.

The first to third motors are commercially available, and the aeration device and the heating device are related art, and are not described in detail herein.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (6)

1. An immersed river and lake water purification treatment device is characterized in that: the device comprises a main device (1), a reaction cavity (2) arranged in the main device, a plurality of water inlet holes (3) arranged at the head end of the main device and distributed at equal intervals, a plurality of water outlet holes (4) arranged at the tail end of the main device and distributed at equal intervals, a first air bag (5) and a second air bag (6) arranged at two sides of the main device, and an aeration mechanism (7) arranged on the second air bag; the first air bag and the second air bag are communicated through a U-shaped connecting pipe (8); a plurality of groups of breeding mechanisms (9) for the self-breeding of nitrifying bacteria are arranged in the reaction cavity; the water inlet hole is provided with a cleaning mechanism (10) for cleaning sundries in water; a first driving mechanism (11) for driving the cleaning mechanism to clean sundries is arranged in the side wall of the main equipment; the tail end of the main equipment is also provided with a second driving mechanism (12) for driving the main equipment to move under water; the first driving mechanism (11) comprises a first cavity (111) arranged in the side wall of the main equipment, a first motor (112) arranged in the first cavity and one end of which is arranged on the main equipment, and a first threaded rod (113) one end of which is arranged on the first motor and the other end of which is arranged on the main equipment; the cleaning mechanism (10) comprises a first shaft (101) and a second shaft (102) which are rotatably arranged at the water inlet, a first rotary rod (103) fixedly sleeved on the first shaft, a second rotary rod (104) fixedly sleeved on the second shaft, a first gear (105) arranged in the first cavity and fixedly sleeved on the first shaft, a second gear (106) arranged in the first cavity and fixedly sleeved on the second shaft, a third gear (107) sleeved on the first threaded rod, and a self-cleaning assembly (108) arranged outside the water inlet; the first gear is meshed with the second gear, and the third gear is meshed with the first gear; the inner side of the water inlet is provided with a heating component (13), and the heating component (13) comprises a water inlet channel (131) communicated with the water inlet, a water inlet pipeline (132) communicated with the water inlet channel, and a heating device (133) arranged on the water inlet pipeline; the breeding mechanism (9) comprises a third cavity (91) and a fourth cavity (92) which are arranged in the side wall of the main equipment, a second motor (93) which is arranged in the third cavity and one end of which is arranged on the main equipment, a second threaded rod (94) which is arranged on the second motor and the other end of which is arranged on the main equipment, a third threaded rod (95) which is arranged in the fourth cavity and the two ends of which are rotatably arranged on the main equipment, and an adjusting component (96) which is used for adjusting the rotating speed of the fourth threaded rod; the adjusting component (96) comprises a first wheel (961) fixedly sleeved on the water slurry, a connecting column (962) with one end penetrating through the side wall of the main equipment and rotatably arranged on the side wall of the main equipment, a second wheel (963) fixedly sleeved on the connecting column, a third wheel (964) rotatably arranged on the outer wall of the main equipment, a third conveyor belt (965) with one end sleeved on the first wheel and the other end sleeved on the third wheel, a fourth conveyor belt (966) with one end sleeved on the second wheel and the other end sleeved on the third wheel, a second cover body (967) arranged on the main equipment and a U-shaped bracket (968) fixedly arranged in the fourth cavity; the other end of the connecting column is rotatably arranged on the U-shaped bracket; the adjusting component (96) further comprises a base (969) fixedly arranged on the U-shaped support, a third motor (9610) arranged on the base, a fourth threaded rod (9611) with one end arranged on the third motor and penetrating through the U-shaped support in a rotatable manner, a guide rod (9612) rotatably arranged on the U-shaped support, a universal joint (9613) with one end arranged on the connecting column and the other end arranged on the guide rod, a sliding block (9614) sleeved on the fourth threaded rod, a connecting rod (9615) fixedly arranged on the sliding block, a round wheel (9616) rotatably arranged on the connecting rod and slidably sleeved on the guide rod, and a bevel gear (9617) sleeved on the third threaded rod; the round wheel is meshed with the bevel gear; the breeding mechanism (9) further comprises a plurality of groups of reaction components (97) arranged in the reaction cavity, wherein each reaction component (97) comprises a first driving shaft (971) which is arranged in the third cavity and one end of which is rotatably arranged on the main equipment, a first bevel gear (972) which is fixedly arranged on the first driving shaft, a first main gear (973) which is rotatably arranged on the main equipment, a second bevel gear (974) which is fixedly arranged on the first main gear and is meshed with the first bevel gear, a first sliding groove (975) and a second sliding groove (976) which are arranged on the main equipment, a first sliding block (977) which is slidably arranged on the first sliding groove, a second sliding block (978) which is slidably arranged on the second sliding groove, a first rack (979) which is fixedly arranged on the first sliding block and is meshed with the first main gear, a second rack (9710) which is fixedly arranged on the second sliding block and is meshed with the first main gear, a first sealing plate (9711) which is fixedly arranged on the first sliding block and is used for sealing the first sliding groove, and a second sealing plate (9712) which is fixedly arranged on the second sliding block and is used for sealing the second sliding block; the first sliding block is provided with a first rod (9713), the first rod is provided with a second rod (9714), the second sliding block is provided with a third rod (9715), and the third rod is provided with a fourth rod (9716); the first driving shaft is meshed with the second threaded rod.

2. The immersed river and lake water purification treatment device according to claim 1, wherein: the self-cleaning component (108) comprises a slot (1081) arranged on the side wall of the main equipment, a fourth gear (1082) fixedly sleeved on the first shaft, a supporting rod (1083) fixedly arranged on the main equipment, a third shaft (1084) rotatably arranged on the supporting rod, a fifth gear (1085) fixedly sleeved on the third shaft, a first conveying belt (1086) with one end sleeved on the fourth gear and the other end sleeved on the fifth gear, a first connecting rod (1087) with one end fixedly sleeved on the third shaft, a second connecting rod (1088) with one end rotatably arranged on the first connecting rod, a third connecting rod (1089) with one end rotatably arranged on the second connecting rod, a first supporting rod (1090) and a second supporting rod (1091) fixedly arranged on the main equipment one end penetrates through a first rotating shaft (1092) which is rotatably arranged on the first supporting rod, the other end penetrates through a second rotating shaft (1093) which is rotatably arranged on the second supporting rod, a first distributing plate (1094) and a second distributing plate (1095) which are fixedly sleeved on the first rotating shaft, a third distributing plate (1096) which is arranged between the first distributing plate and the second distributing plate and is fixedly sleeved on the second rotating shaft, a first rotating rod (1097) which is rotatably arranged on the first distributing plate and is rotatably arranged on the third distributing plate, a second rotating rod (1098) which is rotatably arranged on the second distributing plate and is rotatably arranged on the third distributing plate, A fourth connecting rod (1099) and a fifth connecting rod (1100) which are fixedly arranged on the first rotating shaft, a sixth connecting rod (1101) and a seventh connecting rod (1102) which are fixedly arranged on the second rotating shaft, a first telescopic rod (1103) with one end rotatably arranged on the fourth connecting rod and the other end rotatably arranged on the sixth connecting rod, a second telescopic rod (1104) with one end rotatably arranged on the fifth connecting rod and the other end rotatably arranged on the seventh connecting rod, and a first cover (1105) arranged on the main equipment; the other end of the third connecting rod is fixedly arranged on the first rotating shaft.

3. The immersed river and lake water purification treatment device according to claim 1, wherein: the aeration mechanism (7) comprises aeration equipment (71) arranged on the second air bag, a first aeration pipe (72) arranged on the aeration equipment and one end of which is arranged outside the water surface, a second aeration pipe (73) arranged in the side wall of the main equipment and one end of which is communicated with the first aeration pipe, an aeration plate (74) arranged in the reaction cavity and fixedly arranged at the bottom of the main equipment, an aeration cavity (75) arranged in the aeration plate, and a plurality of aeration holes (76) arranged on the aeration plate and communicated with the aeration cavity; the aeration cavity is communicated with the second aeration pipe; a valve (77) is arranged on the second aerator pipe; a suction pump (78) is arranged in the second air bag; one end of the suction pump is communicated with the air bag, and the other end of the suction pump is communicated with the first aeration pipe.

4. The immersed river and lake water purification treatment device according to claim 1, wherein: the second driving mechanism (12) comprises a water slurry conveying (121) with one end rotatably arranged on the main equipment, a second cavity (122) arranged on the side wall of the main equipment and communicated with the first cavity, a long shaft (123) with one end fixedly arranged on the water slurry conveying and the other end penetrating through the main equipment and rotatably arranged on the main equipment, a first rotating wheel (124) fixedly sleeved on the long shaft, a second rotating wheel (125) arranged in the second cavity and rotatably arranged on the main equipment, and a second conveying belt (126) with one end sleeved on the first rotating wheel and the other end sleeved on the second rotating wheel; the second rotating wheel is meshed with the first threaded rod.

5. The immersed river and lake water purification treatment device according to claim 1, wherein: the reaction assembly (97) further comprises a third sliding groove (9717) and a fourth sliding groove (9718) which are arranged on the main equipment, a third sliding block (9719) which is arranged on the third sliding groove in a sliding manner, a fourth sliding block (9720) which is arranged on the fourth sliding groove in a sliding manner, a second driving shaft (9721) which is arranged on the third sliding block in a penetrating manner in a rotatable manner, a second main gear (9722) which is arranged on the second driving shaft in a meshed manner and is meshed with a third threaded rod, a third driving shaft (9723) which is arranged on the fourth sliding block in a penetrating manner, a third main gear (9724) which is arranged on the third driving shaft in a meshed manner and is meshed with the third threaded rod, a third sealing plate (9725) which is arranged on the third sliding block and is used for sealing the third sliding groove, a fourth sealing plate (9726) which is arranged on the fourth sliding block, a fourth driving shaft (9727) which is fixedly arranged on the second driving shaft in a rotatable manner and the other end of which is rotatably arranged on the second rod, and a fifth driving shaft (28) which is fixedly arranged on the third driving shaft in a rotatable manner and the other end of which is rotatably arranged on the fourth rod.

6. The immersed river and lake water purification treatment device according to claim 5, wherein: the reaction assembly (97) further comprises a first carrier piece (9729) sleeved on the fourth driving shaft and a second carrier piece (9730) sleeved on the fifth driving shaft, and the first carrier piece and the second carrier piece have the same structure; the first carrier piece (9729) comprises an elliptical rail (97291) sleeved on a fourth driving shaft, a first main shaft (97292) and a second main shaft (97293) rotatably sleeved on the elliptical rail, a fifth conveying belt (97294) with one end sleeved on the first main shaft and the other end sleeved on the second main shaft, a plurality of nitrifying bacteria carriers (97295) which are arranged on the fifth conveying belt and are equidistantly distributed at intervals, a shell (97296) arranged on the elliptical rail, a third main shaft (97297) which is arranged on the first main shaft and can penetrate through and rotate on the elliptical rail, a first driving wheel (97298) sleeved on the third main shaft, a first driving wheel (97299) with one end rotatably arranged on the shell and the other end meshed with the first driving wheel, a second driving wheel (97300) fixedly sleeved on the fourth driving shaft, a second driving rod (97301) with one end rotatably arranged on a third sliding block, and a second driving rod (97302) with one end rotatably arranged on the shell and the other end penetrating through and arranged on the shell; one end of the second transmission rod is meshed with the first transmission rod, and the other end of the second transmission rod is meshed with the second transmission wheel.