Disclosure of Invention
Aiming at the defects in the prior art, the invention provides the aquaculture sewage discharging device for the ecological restoration of the water body, which is used for circularly extracting sewage in the aquaculture pond, continuously filtering and discharging sewage, putting the filtered clean water into the aquaculture pond again, preventing sewage from overflowing and preventing the filter screen from being torn and broken.
The invention aims at realizing the following technical scheme:
the utility model provides an aquaculture waste fitting discharging is restoreed to water ecology, includes the seat of decontaminating, the seat of decontaminating rotates and connects carousel and driver plate, the driver plate drives the carousel and rotates quarter circle at every turn, four roll-over shelves are connected in the carousel rotation, the roll-over shelf passes through the shift fork and connects the upset support on seat upper portion of decontaminating, the roll-over shelf filters siphon exhaust sewage, the filth in the roll-over shelf is clear away by the wash valve.
The driving plate shaft at the lower part of the driving plate is rotationally connected with a driving plate shaft hole at the bottom of the trash cleaning seat, the driving plate is connected with an output shaft of a motor through a belt wheel and a belt, and the motor is fixedly connected with the bottom of the trash cleaning seat.
The rotary table is characterized in that an index plate is arranged at the lower part of the rotary table, an index plate hole in the middle of the index plate is rotationally connected with a central shaft in the middle of the dirt cleaning seat, four index plate arc grooves are formed in the periphery of the index plate, one index plate groove is formed between every two index plate arc grooves, the index plate is connected with a poking pin on one side of the poking plate in a sliding mode, and the index plate arc grooves are connected with a poking plate arc of the poking plate in a sliding mode.
Advantageous effects
According to the invention, when the shifting fork groove slides on the first section of the bracket, the shifting fork is in a vertical upward state, the opening of the dirt collecting hole is in a vertical upward state, when the rotary table stops rotating, the dirt collecting hole is just aligned with the dirt discharging outlet of the siphon pipe, dirt in the siphon pipe is filtered by the filter screen at the lower part of the dirt collecting hole, when the shifting fork groove slides from the first section of the bracket to the second section of the bracket along the third section of the bracket on the right side, the shifting fork groove transits from the vertical upward state to the vertical downward state through the third section of the bracket, the opening of the dirt collecting hole rotates to the vertical downward state, when the dirt collecting hole rotates from the vertical upward state to the vertical downward state, the dirt in the filter screen flows out from the lower part of the dirt collecting hole during ecological restoration of a water body, the discharged dirt falls into the dirt collecting pool at the lower part, and when the shifting fork groove slides from the third section of the bracket on the left side to the first section of the bracket, the shifting fork groove transits from the third section of the bracket to the vertical upward state, and the dirt collecting hole rotates from the vertical downward state to the vertical upward state.
When the driving plate rotates, the touch rod at the front side of one of the turnover frames can touch the rotating rod, the rotating rod is driven to rotate when the touch rod rotates, the flushing valve is opened after the rotating rod rotates, high-pressure water in the flushing valve just aims at a filter screen passing through the lower part after the flushing valve is opened, the filter screen is flushed by the high-pressure water, dirty water flushed during ecological restoration of a water body flows into a sewage collecting pool at the lower part from the sewage pipe, the touch rod is separated from the rotating rod after the turnover frame rotates through the sewage pipe, and the flushing valve is closed after the rotating rod is reset under the action of the tension spring.
Description of the embodiments
The invention is described in further detail below with reference to the drawings and examples:
referring to fig. 1, 2, 3 and 4, a water ecological restoration aquaculture sewage disposal device comprises a sewage disposal seat 110, wherein the sewage disposal seat 110 is rotationally connected with a rotary table 120 and a driving plate 130, the driving plate 130 drives the rotary table 120 to rotate for one quarter circle each time, the rotary table 120 is rotationally connected with four turning frames 140, the turning frames 140 are connected with a turning support 113 on the upper part of the sewage disposal seat 110 through a shifting fork 150, the turning frames 140 are used for filtering sewage discharged by a siphon 230, and sewage in the turning frames 140 is removed by a flushing valve 160. The overturning bracket 113 provides fixed-point overturning conditions for automatic cycle cleaning of the overturning frame 140, and meanwhile, the plurality of shifting forks 150 are simultaneously connected with the overturning bracket 113, so that multipoint stress of the overturning bracket 113 can be balanced, the overturning bracket 113 is prevented from shaking due to siphon water flow impact, sewage is prevented from overflowing, and the use is safe.
The ecological restoration filter screen of the water body is used for a long time, the filtration speed can be reduced due to more dirt adhesion, the filter screen is easy to sink towards the central position, the filter screen is easy to damage under the impact of the dirt, and the filtered water body still mixes impurities. The invention utilizes the driving plate 130 to drive the roll-over stand 140 to regularly rotate, sediment in the roll-over stand 140 can be cleaned regularly, damage to the filter screen 142 is reduced, and the filter screen 142 is washed from the reverse side of the filter surface by the flushing valve 160, so that the water permeability of the filter screen 142 is improved, the deformation of the filter screen 142 is corrected, the possibility of tearing and breakage of the filter screen 142 is reduced, the use is safe, the filtering effect is improved, and the service life of the filter screen 142 is prolonged.
Referring to fig. 2, a dial shaft 131 at the lower part of the dial 130 is rotatably connected with a dial shaft hole 112 at the bottom of the dirt-removing seat 110, the dial 130 is connected with an output shaft of a motor 190 through a belt wheel and a belt, and the motor 190 is fixedly connected with the bottom of the dirt-removing seat 110.
Referring to fig. 5, 8 and 9, the lower portion of the rotary disc 120 is provided with an index disc 121, an index disc hole 122 in the middle of the index disc 121 is rotatably connected with a central shaft 111 in the middle of the dirt cleaning seat 110, four index disc arc grooves 123 are arranged around the index disc 121, an index groove 124 is arranged between every two index disc arc grooves 123, the index groove 124 is slidably connected with a toggle pin 133 on one side of the dial 130, and the index disc arc grooves 123 are slidably connected with a dial arc 132 of the dial 130.
The motor 190 drives the driving plate 130 to rotate through the belt and the belt wheel, the driving plate 130 drives the driving plate 130 to rotate when the dividing groove 124 is in sliding connection with the driving plate 133, the dividing groove 124 is separated from the driving pin 133 from the starting of sliding connection with the driving plate 133, the rotary plate 120 rotates for a quarter turn, after the dividing groove 124 is separated from the driving pin 133, the dividing plate arc groove 123 is started to be in sliding connection with the driving plate arc 132, the driving plate 130 rotates, the rotary plate 120 stops rotating, the motor 190 drives the driving plate 130 to rotate for one turn each time, and the rotary plate 120 rotates for a quarter turn each time.
Referring to fig. 5, 10 and 11, four rotating frames 125 are uniformly distributed on the outer side of the cylinder of the turntable 120, the rotating frames 125 are rotatably connected with a turnover hole 143 on one side of the turnover frame 140, a rotating shaft 144 on the upper part of the turnover frame 140 is rotatably connected with a shifting fork 150, and a shifting fork groove 151 of the shifting fork 150 is slidably connected with a turnover bracket 113 on the upper part of the trash cleaning seat 110.
Referring to fig. 6 and 7, the first support section 1131 at the rear of the flip support 113 is highest, the second support section 1132 at the front side of the flip support 113 is lowest, and the third support sections 1133 at the two sides are the passing sections between the first support section 1131 and the second support section 1132.
When the shifting fork groove 151 slides in the first support section 1131, the shifting fork 150 is in a vertically upward state, the dirt collecting hole 141 is opened in a vertically upward state, when the rotary table 120 stops rotating, the dirt collecting hole 141 is just aligned with the drain outlet of the siphon pipe 230, dirt in the siphon pipe 230 is filtered by the filter screen 142 at the lower part of the dirt collecting hole 141, when the shifting fork groove 151 slides from the first support section 1131 to the second support section 1132 along the third support section 1133, the shifting fork groove 151 transits from the vertically downward state to the vertically downward state through the third support section 1133, the opening of the dirt collecting hole 141 rotates to the vertically downward state, when the dirt collecting hole 141 rotates from the vertically upward state to the vertically downward state, the dirt in the filter screen 142 flows out from the lower part of the dirt collecting hole 141, the discharged dirt falls into the dirt collecting tank 250 at the lower part, and when the shifting fork groove 151 slides from the second support section 1132 to the first support section 1131 through the third support section 1133, the shifting fork groove 151 transits from the vertically downward state to the vertically downward state through the third support section 1133 to the vertically downward state, the dirt collecting hole 141 rotates from the vertically upward state to the vertically downward state.
Referring to fig. 5, a vertical plate 114 is disposed on the front side of the dirt cleaning seat 110, a drain pipe 115 is disposed on the inner side of the vertical plate 114, a flushing valve hole 116 on the upper portion of the vertical plate 114 is fixedly connected with a flushing valve 160, and a tension spring 180 is connected between an operating handle rotating rod 170 of the flushing valve 160 and the spring plate 117.
When the driving plate 130 rotates, the bump rod 145 at the front side of one of the turn-over frames 140 bumps against the rotating rod 170, the bump rod 145 rotates to drive the rotating rod 170 to rotate, after the rotating rod 170 rotates, the flushing valve 160 is opened, after the flushing valve 160 is opened, high-pressure water in the flushing valve 160 just aims at the filter screen 142 passing through the lower part, the high-pressure water washes the filter screen 142 clean, the washed dirty water flows into the sewage collecting pool 250 at the lower part from the sewage drain pipe 115, after the turn-over frame 140 rotates through the sewage drain pipe 115, the bump rod 145 is separated from the rotating rod 170, the rotating rod 170 is reset under the action of the tension spring 180, and the flushing valve 160 is closed.
Referring to fig. 1, the siphon pipe 230 discharges sewage at the bottom of the fish pond 210 into the sewage collecting hole 141, the filter screen 142 filters out sewage in the sewage, the filtered clean water flows into the circulation tank 240 at the lower part, and the filtered clean water is discharged again into the fish pond 210 through the water pump and the circulation pipe 220 to form a circulation.
When the device is used, the siphon pipe 230 discharges sewage at the bottom of the fish pond 210 into the sewage collecting hole 141, the filter screen 142 filters out sewage in the sewage, the filtered clean water flows into the circulating pool 240 at the lower part, after the filter screen 142 filters for a period of time, the sewage in the sewage collecting hole 141 is slowly increased, the motor 190 drives the driving plate 130 to rotate through the belt and the belt wheel for one circle, the rotating plate 120 rotates for one quarter circle each time, the rotating plate 120 rotates to drive the turnover frame 140 to rotate, the turnover frame 140 rotates along with the rotating plate 120 each time, the current turnover frame 140 moves downwards, the next turnover frame 140 rotates to the lower part of the siphon pipe 230, the next turnover frame 140 bears the filtering work, the turnover frame 140 filled with sewage slowly rotates from the vertical upwards state to the downwards state when moving downwards, the sewage in the filter screen 142 flows out from the lower part of the sewage collecting hole 141, the discharged sewage falls into the sewage collecting tank 250 at the lower part, the bump rod 145 at the front side of the roll-over stand 140 bumps against the rotating rod 170 during the downward movement of the roll-over stand 140, the rotating rod 170 is driven to rotate when the bump rod 145 rotates, the flushing valve 160 is opened after the rotating rod 170 rotates, after the flushing valve 160 is opened, the high-pressure water in the flushing valve 160 just aims at the filter screen 142 passing through the lower part, the high-pressure water washes the filter screen 142 clean, the washed sewage flows into the sewage collecting tank 250 at the lower part from the sewage drain pipe 115, after the roll-over stand 140 rotates through the sewage drain pipe 115, the bump rod 145 and the rotating rod 170 are separated, the rotating rod 170 is reset under the action of the tension spring 180, the flushing valve 160 is closed, the dial 130 rotates once, all the roll-over stands 140 alternate positions for filtering the sewage, the roll-over stand 140 full of the sewage is cleaned in turn, the filtering effect is ensured, the filtering efficiency is ensured, sewage in the culture pond is circularly pumped out, sewage in the sewage is continuously filtered and discharged, and filtered clean water is put into the culture pond again, so that the culture cost is reduced, and the water is saved.