CN114304044A - Aquaculture is with having aquaculture water treatment facilities of oxygenation function - Google Patents

Abstract

The invention relates to the technical field of aquaculture, in particular to a aquaculture water treatment device with an oxygen increasing function for aquaculture. The technical problem is that: the oxygen content of part of water is too high, and the oxygen content of part of water is too low, so that the oxygen content in the water is uneven. The technical implementation scheme is as follows: the utility model provides an aquaculture is with breed water treatment facilities that has oxygenation function, is including the hull plate, the filtering mechanism that draws water, oxygenation discharge mechanism and direction rotary mechanism, and the filtering mechanism that draws water is installed on the upper portion of hull plate, is provided with oxygenation discharge mechanism on the filtering mechanism that draws water, and the upper portion of filtering mechanism that draws water is provided with direction rotary mechanism. The invention realizes the intermittent discharge of the purified and oxygenated water by the cooperation of the pumping and filtering mechanism, the oxygenation discharge mechanism and the intermittent water discharge mechanism, and avoids the insufficient discharge of the purified and oxygenated water, which causes the insufficient oxygen content and incomplete purification of the water and inconvenience for cultivation.

Description

Aquaculture is with having aquaculture water treatment facilities of oxygenation function

Technical Field

The invention relates to the technical field of aquaculture, in particular to a aquaculture water treatment device with an oxygen increasing function for aquaculture.

Background

Aquaculture means that fishes or various seafoods are cultivated for eating in fishponds which are opened up by manpower on the shore.

Aquaculture has certain requirement to the oxygen content of water, and the water in the pond that the manual work opened up is in the stagnant water state, and the water of this state can't flow, so can make the area of water and air contact less, thereby cause the oxygen content of underwater part lower, for guaranteeing to breed the growth of fish or various seafood, for this reason need carry out oxygenation work to breeding water, need carry out purification work to breeding water in oxygenation work, it is more to avoid the impurity that the aquatic exists, and current carrying out unable removal of in-process of oxygenation to breeding water, and when carrying out oxygenation work, only squeeze into aquatic with oxygen, and oxygen squeezes into after the aquatic, can cause the water oxygen content of some too high, oxygen content in some is low, so can cause the aquatic oxygen content uneven.

In view of the above problems, we have developed a culture water treatment apparatus with oxygen increasing function for aquaculture.

Disclosure of Invention

In order to overcome the defects that the oxygen content of part of water is too high and the oxygen content of part of water is too low and the oxygen content in water is uneven in the process of oxygenating culture water by using the conventional aerator, the technical problems of the invention are as follows: provides a culture water treatment device with oxygen increasing function for aquaculture.

The technical implementation scheme of the invention is as follows: a culture water treatment device with oxygen increasing function for aquaculture comprises vertical plates, fixed rods, two fixed blocks, buffer springs, sensors, a boat plate, a water pumping and filtering mechanism, an oxygen increasing and discharging mechanism, a guiding rotary mechanism and an intermittent water discharging mechanism, wherein two vertical plates are arranged, two fixed rods are arranged between the two vertical plates, the fixed blocks are respectively arranged at two parts of the fixed rods, the buffer springs are wound at two parts of the fixed rods, one ends of the buffer springs are connected with the adjacent fixed blocks, the sensors are respectively arranged at two parts of the fixed rods in a sliding manner, the four sensors are positioned at the inner sides of the four buffer springs, the other ends of the buffer springs are fixedly connected with the sensors, the water pumping and filtering mechanism is arranged at the upper part of the boat plate, the oxygen increasing and discharging mechanism is arranged on the water pumping and filtering mechanism, the guiding rotary mechanism is arranged at the upper part of the water pumping and filtering mechanism, and is arranged with the two fixed rods in a sliding manner, the guide rotating mechanism is respectively connected with the four inductors through lines, and an intermittent water discharging mechanism is arranged on the oxygenation discharging mechanism; the water pumping and filtering mechanism comprises four support plates, four water storage tanks, water purifying plates, sliding blocks, water suction pumps, water pumping frames, water outlet pipes, hollow frames, an arc-shaped frame, water conveying pipes, water retaining assemblies and cleaning assemblies, wherein the four support plates are all arranged at the inner bottom of a ship plate, the water storage tanks are fixedly connected between the upper surfaces of the two adjacent support plates, the water purifying plates are arranged in the water storage tanks in a sliding mode through the sliding blocks, the water suction pumps are arranged at the inner bottom of the ship plate and located at the lower sides of the water storage tanks, the water pumping frames are arranged on the water suction pumps through communicating pipes, the water outlet pipes are arranged on the water suction pumps, the hollow frames are arranged at the upper ends of the water outlet pipes, the arc-shaped frame is arranged at the lower portion of the right side face of each hollow frame, the water conveying pipes are arranged at the front portion and the rear portion of the arc-shaped frame, the water conveying pipes at the two sides are respectively communicated with the water storage tanks at the two sides, the water retaining assemblies are arranged in a sliding mode respectively with the water storage tanks at the two sides, the water containing tank is provided with a cleaning component.

Furthermore, the front and the rear parts of the inner bottom of the water containing tank are inclined planes which are inward and downward, and the inner bottom of the water containing tank is a tapered chute which is high at the left and low at the right.

Further, the manger plate subassembly is including baffle, movable plate, carriage, ring, connecting rod, clean shot and extension spring, and the baffle rotary type is connected on the arc frame, and the upper surface left part of baffle is provided with the movable plate through the axostylus axostyle rotary type, and the equal rigid coupling in both sides of movable plate has the carriage, and the gliding formula is equipped with the ring on the carriage, and the connecting rod is installed to the right part of ring, and the clean shot is installed to the lower extreme of connecting rod, and the clean shot of both sides slides with the flourishing water tank of both sides respectively and sets up, and the rigid coupling has the extension spring between arc frame and the movable plate.

Further, clean subassembly is including the sewage case, the shutoff pipe, the shutoff piece, n shape pole and nozzle, the sewage case is all installed to the lateral surface of two flourishing water tanks, the shutoff mouth has all been inlayed to the sewage case surface lower part of both sides, the flourishing water tank lateral wall of both sides all communicates there is the shutoff pipe, the shutoff pipe of both sides is located the sewage incasement of both sides respectively, the intraductal slip of shutoff is equipped with the shutoff piece, the upper surface rigid coupling of shutoff piece has n shape pole, n shape pole passes the shutoff pipe, sewage case and flourishing water tank, n shape pole and slider rigid coupling, the left surface is equipped with a plurality of nozzles in the flourishing water tank.

Furthermore, the oxygenation discharge mechanism comprises a first drainage pipe, containing boxes, a fixed frame, a rotating rod, a first bevel gear, a movable frame, a first belt wheel, a speed reducing motor, a second belt wheel, blades, a second bevel gear, a trough plate, a sliding plate, a first rotating shaft, a third bevel gear, a fourth bevel gear and a second drainage pipe, wherein the first drainage pipe is communicated with the right parts of the two water containing boxes, the right parts of the first drainage pipe are communicated with the two containing boxes, the two containing boxes are fixedly connected with the inner bottom of the ship plate, the fixed frame is arranged on the right side surface of the sewage box, the rotating rod is rotatably arranged on the fixed frame, the first sliding bevel gears are slidably arranged at the inner ends of the two sides through splines, the movable frame is arranged outside the first bevel gears on the two sides, the first belt wheel is slidably arranged at the front end of the rotating rod on the front side through the splines, a sliding part is arranged on the rear side surface of the first belt wheel, the sliding part on the first belt wheel is fixedly connected with the water containing boxes on the front side, the inner bottom of the ship board is provided with a reducing motor, the output shaft of the reducing motor is connected with a second belt wheel through a shaft lever, the second belt wheel is connected with a first belt wheel through a belt in a transmission way, the upper part in the containing box is rotatably provided with a rotating roller, the rotating roller on the containing box is provided with a plurality of blades, the blades are provided with a plurality of through holes, the inner ends of the rotating rollers on the containing box on two sides are respectively provided with a second bevel gear, the upper parts of the inner side surfaces of the containing box on two sides are provided with a slotted plate, the slotted plate is provided with a sliding plate in a sliding way, the upper part of the sliding plate is rotatably provided with a first rotating shaft, the right end of the first rotating shaft is provided with a third bevel gear, the second bevel gear is matched with the third bevel gear, the left end of the first rotating shaft passes through the moving frame, the left end of the first rotating shaft is provided with a fourth bevel gear, the fourth bevel gear is meshed with the first bevel gears on two sides, the lower parts of the right side surfaces of the containing boxes on two sides are communicated with a second drain pipe, the lower part of the second water discharge pipe is provided with a one-way valve.

Furthermore, the front and the rear parts of the inner bottom of the containing box are inclined planes which are inward and downward, and the inner bottom of the containing box is a tapered chute which is high at the left and low at the right.

Further, the guiding and rotating mechanism comprises mounting frames, n-shaped plates, second rotating shafts, first straight gears, fifth bevel gears, mounting plates, rotating rods, second straight gears, annular plates, sliding sleeves, sixth bevel gears, pin rods, servo motors, third straight gears, supporting frames, guide wheels, third rotating shafts, seventh bevel gears, U-shaped frames, eighth bevel gears, fourth rotating shafts, ninth bevel gears, tenth bevel gears, fifth rotating shafts, fourth straight gears, fifth straight gears and sixth straight gears, the two mounting frames are arranged, the two mounting frames are respectively connected to the upper parts of the right side surfaces of the water containing tanks on two sides, the n-shaped plates are arranged on the lower parts of the two mounting frames, the second rotating shafts are rotatably arranged between the mounting frames and the n-shaped plates, the first straight gears are arranged at the outer ends of the second rotating shafts on two sides, the fifth bevel gears are arranged at the inner ends of the second rotating shafts on two sides, the mounting frames on the upper parts of the two sides are rotatably arranged with the mounting plates, a rotating rod is rotatably installed in the middle of the n-shaped plate, a small conical wheel is arranged at the lower end of the rotating rod, the small conical wheel on the rotating rod is meshed with a fifth bevel gear, a second straight gear is rotatably arranged on the upper surface of the mounting plate, an annular plate is arranged on the upper surface of the second straight gear, a track groove is formed in the inner surface of the annular plate, a sliding sleeve is arranged on the upper portion of the rotating rod in a spline connection mode, a pin rod is arranged on the lower portion of the sliding sleeve and is slidably arranged in the track groove of the annular plate, two sixth bevel gears are fixedly connected to the sliding sleeve, a servo motor is arranged on the right portion of the mounting plate, a third straight gear is installed on an output shaft of the servo motor and is meshed with the second straight gear, support frames are installed on two portions of the servo motor, a group of guide wheels is arranged on the left portion of each support frame, a group of guide wheels is arranged on the two sides of each guide wheel, a third rotating shaft is arranged inside the guide wheels on the rear upper side, the third rotating shaft is provided with a seventh bevel gear, the left side surface of the supporting frame on the front side is provided with a U-shaped frame, the middle part of the U-shaped frame is rotatably connected with an eighth bevel gear through a shaft rod, the two parts of the U-shaped frame are rotatably provided with a fourth rotating shaft, the fourth rotating shaft on the front side is fixedly connected with a guide wheel on the front side, one end of the fourth rotating shaft is provided with a ninth bevel gear, the two ninth bevel gears are respectively meshed with the eighth bevel gear, the rear end of the fourth rotating shaft on the rear side is provided with a tenth bevel gear, the tenth bevel gear and the seventh bevel gear are both matched with a sixth bevel gear, the upper part of the fixing frame is rotatably provided with a fifth rotating shaft, one end of the fifth rotating shaft is provided with a fourth straight gear, the fourth straight gear is meshed with the first straight gear, the other end of the fifth rotating shaft is provided with a fifth straight gear, the outer ends of the rotating rods on the two sides are provided with sixth straight gears, and the adjacent upper and lower straight gears are meshed with the fifth straight gears.

Further, intermittent type mechanism of draining is including the fixed plate, the swinging arms, hollow plate, the slide bar, the carriage release lever, the jam piece, the diaphragm, locating lever and grooved roll, two fixed plates are all installed to the lateral surface that both sides held the case, the swinging arms is installed to upper and lower adjacent fixed plate rotary type, two hollow plates are all installed to the two portions of swinging plates, upper and lower adjacent hollow plate slides and is equipped with the slide bar, two corresponding slide bar rigid couplings have the carriage release lever, the jam piece is all installed to the two portions of carriage release lever, the jam piece of the left and right sides is located first calandria and second calandria respectively, the diaphragm is installed to two slide bar upper ends in the left side, diaphragm and carriage rigid coupling, the upper surface rigid coupling of diaphragm has two locating levers, install the grooved roll in the second pivot, the grooved roll of both sides respectively with the locating lever sliding fit of both sides.

Further, still including the protective cover, the upper surface that holds the case is provided with the protective cover.

The invention has the beneficial effects that: according to the invention, the pumping and filtering mechanism, the oxygenation discharge mechanism and the intermittent water discharge mechanism are matched, four plugging blocks are respectively matched with the first water discharge pipe and the second water discharge pipe to realize intermittent discharge of purified and oxygenated water, so that the problems of insufficient oxygen content and incomplete purification of water and inconvenience for cultivation are avoided, the pumping and filtering mechanism, the oxygenation discharge mechanism and the intermittent water discharge mechanism are matched and rotated for 180 degrees through the matching of the oxygenation discharge mechanism and the guide rotating mechanism and the contact and matching of the inductor and the guide wheel, the water in aquaculture is purified and oxygenated again, the water driven by the rotation of the blades is blocked by the protective cover, and the water flow is prevented from scattering around due to the rotation of the blades.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a partially enlarged perspective view of the present invention.

Fig. 3 is a partial perspective view of the present invention.

Fig. 4 is a schematic perspective view of the water pumping filter mechanism of the present invention.

Fig. 5 is a schematic view of a first partial body structure of the water pumping filter mechanism of the present invention.

Fig. 6 is a schematic view of a partial sectional perspective structure of the water pumping filter mechanism of the present invention.

Fig. 7 is a schematic view of a second partial structure of the water pumping filter mechanism of the present invention.

Fig. 8 is a schematic perspective view of the oxygen increasing and discharging mechanism of the present invention.

FIG. 9 is a schematic view of a first partial structure of the oxygen increasing discharge mechanism of the present invention.

FIG. 10 is a schematic view of a second partial structure of the oxygen increasing discharge mechanism of the present invention.

FIG. 11 is a perspective view of a third embodiment of the oxygen increasing discharge mechanism of the present invention.

Fig. 12 is a schematic perspective view of the guiding and rotating mechanism of the present invention.

Fig. 13 is a schematic view of a first partial structure of the guiding and rotating mechanism of the present invention.

Fig. 14 is a schematic view of a second partial structure of the guiding and rotating mechanism of the present invention.

Fig. 15 is a schematic perspective view of an intermittent water discharge mechanism according to the present invention.

Fig. 16 is a partial perspective view of the intermittent water discharging mechanism of the present invention.

Reference numerals: 1-vertical plate, 2-fixed rod, 3-fixed block, 4-buffer spring, 5-inductor, 6-ship plate, 7-pumping filter mechanism, 701-support plate, 702-water containing tank, 703-water purification plate, 704-slide block, 705-water pump, 706-water pumping frame, 707-water outlet pipe, 708-hollow frame, 709-arc frame, 710-water supply pipe, 711-baffle, 712-movable plate, 713-sliding frame, 714-ring, 715-connecting rod, 716-hollow ball, 717-tension spring, 718-sewage tank, 719-plugging pipe, 720-plugging block, 721-n-shaped rod, 722-nozzle, 8-oxygenation discharge mechanism, 801-first water discharge pipe, 802-containing tank, 803-fixed frame, 804-rotating rod, 805-first bevel gear, 806-moving frame, 807-first belt wheel, 808-reducing motor, 809-second belt wheel, 810-blade, 811-second bevel gear, 812-slotted plate, 813-sliding plate, 814-first rotating shaft, 815-third bevel gear, 816-fourth bevel gear, 817-second water discharge pipe, 9-guiding rotating mechanism, 901-mounting frame, 902-n-shaped plate, 903-second rotating shaft, 904-first straight gear, 905-fifth bevel gear, 906-mounting plate, 907-rotating rod, 908-second straight gear, 910-annular plate, 911-sliding sleeve, 912-sixth bevel gear, 913-pin rod, 914-servo motor, 915-third straight gear, 916-a support frame, 917-a guide wheel, 918-a third rotating shaft, 919-a seventh bevel gear, 920-a U-shaped frame, 921-an eighth bevel gear, 922-a fourth rotating shaft, 923-a ninth bevel gear, 924-a tenth bevel gear, 925-a fifth rotating shaft, 926-a fourth spur gear, 927-a fifth spur gear, 928-a sixth spur gear, 10-a fixing plate, 11-a swinging plate, 12-a hollow plate, 13-a sliding rod, 14-a moving rod, 15-a plugging block, 16-a transverse plate, 17-a positioning rod, 18-grooved rollers and 19-a protective cover.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings.

Example 1

An aquaculture water treatment device with an oxygen increasing function for aquaculture, as shown in figures 1-3, comprises vertical plates 1, fixed rods 2, fixed blocks 3, buffer springs 4, inductors 5, a boat plate 6, a water pumping and filtering mechanism 7, an oxygen increasing and discharging mechanism 8, a guiding and rotating mechanism 9 and an intermittent water discharging mechanism, wherein two vertical plates 1 are arranged, two fixed rods 2 are arranged between the two vertical plates 1, the fixed blocks 3 are respectively arranged at two parts of the fixed rods 2, the buffer springs 4 are wound at two parts of the fixed rods 2, one ends of the buffer springs 4 are connected with the adjacent fixed blocks 3, the inductors 5 are respectively arranged at two parts of the fixed rods 2 in a sliding manner, the four inductors 5 are positioned at the inner sides of the four buffer springs 4, the other ends of the buffer springs 4 are fixedly connected with the inductors 5, the water pumping and filtering mechanism 7 is arranged at the upper part of the boat plate 6, the water pumping and filtering mechanism 7 is used for pumping and purifying the aquaculture water, an oxygen increasing discharge mechanism 8 is arranged on the pumping filter mechanism 7, the oxygen increasing discharge mechanism 8 is used for dividing water discharged by the pumping filter mechanism 7, so that the contact area of the water and air is larger, the oxygen content of aquaculture water is increased, a guide rotating mechanism 9 is arranged at the upper part of the pumping filter mechanism 7, the guide rotating mechanism 9 is arranged in a sliding way with two fixed rods 2, the guide rotating mechanism 9 is respectively connected with four sensors 5 through a circuit, the guide rotating mechanism 9 is matched with the fixed rods 2 and is used for guiding the device to move leftwards, the guide rotating mechanism 9 is used for touching the sensors 5, the guide rotating mechanism 9 is started to rotate the device 180 degrees along with the guide rotating mechanism 9, the device moves rightwards again at the moment, when the guide rotating mechanism 9 moves rightwards and touches the sensors 5, the guide rotating mechanism 9 rotates the device 180 degrees again, and the device moves leftwards when moving again, so constantly circulate, realize the circulation reciprocating motion of this device, extract simultaneously to breed water and purify oxygenation and discharge, accomplish the purification oxygenation work of breeding water, be provided with the intermittent type mechanism of draining on the oxygenation discharge mechanism 8, the intermittent type mechanism of draining is used for discharging the water intermittent type after purifying and the oxygenation, avoids purifying the water after with the oxygenation and discharges fast, causes to breed the aquatic products not enough and the oxygenation is not abundant, causes the hindrance to grow up for fish and seafood in the aquaculture.

When the device is used, a user places the device at a designated position, then the user starts the water pumping and filtering mechanism 7 to work, the water pumping and filtering mechanism 7 works to pump water in aquaculture and discharge the water to the oxygen increasing and discharging mechanism 8, at the moment, the oxygen increasing and discharging mechanism 8 works to divide the discharged water, so that the contact area of the discharged water with oxygen is larger, the oxygen content in the water is increased and the water is discharged into the aquaculture, the oxygen increasing and discharging mechanism 8 works and simultaneously transmits power to the guiding and rotating mechanism 9, the guiding and rotating mechanism 9 moves leftwards on the fixed rod 2 along with the guiding and rotating mechanism and works the intermittent water discharging mechanism, the intermittent water discharging mechanism works to discharge the water in the water pumping and filtering mechanism 7 and the oxygen increasing and discharging mechanism 8 intermittently, when the guiding and rotating mechanism 9 moves leftwards and contacts with the inductor 5, the inductor 5 sends a signal along with the guiding and rotating mechanism 9 works, the water pumping and filtering mechanism 7 and the oxygen increasing and discharging mechanism 8 are rotated by the guiding rotating mechanism 9, the ship plate 6 is rotated by 180 degrees and is closed, the oxygen increasing and discharging mechanism 8 works to enable the guiding rotating mechanism 9 to move rightwards, when the guiding rotating mechanism 9 moves rightwards and is in contact with the inductor 5, the inductor 5 enables the guiding rotating mechanism 9 to work, the ship plate 6 rotates 180 degrees again to recover the initial state, the operation is repeated continuously, the oxygen increasing work on the water in the aquaculture can be completed, the water in the aquaculture is pumped and discharged continuously, the water in the bottom of the aquaculture is pumped to the upper part, the oxygen content of the water in the aquaculture is uniform, and the excessive or insufficient oxygen content of the water is avoided.

Example 2

Based on embodiment 1, as shown in fig. 2 to 7, the water pumping and filtering mechanism 7 includes a support plate 701, a water containing tank 702, a water purifying plate 703, a sliding block 704, a water pumping pump 705, a water pumping frame 706, a water outlet pipe 707, a hollow frame 708, an arc-shaped frame 709, a water supply pipe 710, a baffle 711, a moving plate 712, a sliding frame 713, an annular ring 714, a connecting rod 715, a hollow ball 716, a tension spring 717, a sewage tank 718, a blocking pipe 719, a blocking block 720, an n-shaped rod 721 and a nozzle 722, the support plate 701 has four support plates 701, the four support plates 701 are all installed at the inner bottom of the ship board 6, the water containing tank 702 is fixedly connected between the upper surfaces of the two adjacent support plates 701, the front and rear bottom of the water containing tank 702 are both inclined surfaces facing inward and downward, the inner bottom of the water containing tank 702 is a tapered chute with a left high end and a right low end, the water purifying plate 703 is slidably installed in the water containing tank 702 through the sliding block 704, the inner bottom of the ship board 6 is installed with the water pumping pump 705, the water suction pump 705 is positioned at the lower side of the water containing tank 702, the water suction pump 705 is provided with a water suction frame 706 through a communicating pipe, the water suction pump 705 is provided with a water outlet pipe 707, the upper end of the water outlet pipe 707 is provided with a hollow frame 708, the lower part of the right side surface of the hollow frame 708 is provided with an arc-shaped frame 709, the front part and the rear part of the arc-shaped frame 709 are both provided with water supply pipes 710, the water supply pipes 710 at the front side and the rear side are respectively communicated with the water containing tanks 702 at the front side and the rear side, the culture water in the water containing tank 702 is purified through the water purification plate 703 by matching the water suction pump 705, the water suction frame 706, the water outlet pipe 707, the hollow frame 708, the arc-shaped frame 709, the water supply pipes 710 and the water containing tanks 702, the movable plate 712 is rotatably connected on the arc-shaped frame 709 through a shaft rod, the left part of the upper surface of the movable plate 712 is rotatably provided through a shaft rod, the front part and the rear part of the movable plate 713 are fixedly connected with the sliding frame 713, an annular ring 714 is arranged on a sliding frame 713 in a sliding mode, a connecting rod 715 is arranged at the right part of the annular ring 714, hollow balls 716 are arranged at the lower end of the connecting rod 715, the hollow balls 716 at the front side and the rear side are respectively arranged with water containing tanks 702 at the front side and the rear side in a sliding mode, a tension spring 717 is fixedly connected between the arc-shaped frame 709 and the moving plate 712, a baffle 711 is matched with the water supply pipe 710 to complete the sealing of the water supply pipe 710 at one side, so that the culture water is conveniently purified, the purification time of the culture water is prolonged, the insufficient purification of the culture water is avoided, sewage tanks 718 are respectively arranged at the outer side surfaces of the water containing tanks 702 at the front side and the rear side, plugging ports are respectively embedded at the lower parts of the outer surfaces of the sewage tanks 718 at the front side and the rear side, plugging pipes 719 at the front side and the rear side are respectively positioned in the sewage tanks 718 at the front side and the rear side, plugging blocks 720 are slidably arranged in the plugging pipes 719, an n-shaped rod 721 is fixedly connected on the upper surface of the plugging blocks 720, the n-shaped rod 721 penetrates through the blocking pipe 719, the sewage tank 718 and the water containing tank 702, the n-shaped rod 721 is fixedly connected with the sliding block 704, the plurality of nozzles 722 are arranged on the left side surface in the water containing tank 702, when more sundries are stored on the upper surface of the water purifying plate 703, water is sprayed onto the water purifying plate 703 through the nozzles 722, the sundries on the water purifying plate 703 are accumulated together through water impact, and the water on the water purifying plate 703 does not move upwards due to the fact that the water purifying plates 703 on the two sides are respectively inclined towards the right front side and the right rear side and the water flow sprayed out of the nozzles 722 is small, and therefore the water on the water purifying plate 703 flows into the sewage tank 718 through the blocking pipe 719 to complete sewage collection.

As shown in fig. 8-11, the oxygen-increasing discharge mechanism 8 includes a first water discharge pipe 801, a holding box 802, a fixing frame 803, a rotating rod 804, a first bevel gear 805, a moving frame 806, a first pulley 807, a speed-reducing motor 808, a second pulley 809, a blade 810, a second bevel gear 811, a trough plate 812, a sliding plate 813, a first rotating shaft 814, a third bevel gear 815, a fourth bevel gear 816 and a second water discharge pipe 817, the first water discharge pipe 801 is communicated with the right parts of the two water holding boxes 702, the right part of the first water discharge pipe 801 is communicated with the two holding boxes 802, the two holding boxes 802 are fixedly connected with the inner bottom of the boat deck 6, the front and rear parts of the inner bottom of the holding boxes 802 are inclined surfaces facing inward and downward, the inner bottom of the holding boxes 802 is a tapered chute with a high left and a low right, the right side of the sewage box 718 is installed on the right side, the fixing frame 803 is rotatably installed with the rotating rod 804, the inner ends of the front and rear sides are slidably installed with the first bevel gear 805 through splines, a moving frame 806 is arranged outside the first bevel gears 805 at the front side and the rear side, a first belt wheel 807 is arranged at the front end of a rotating rod 804 at the front side in a sliding manner through splines, a sliding part is arranged at the rear side surface of the first belt wheel 807 in a sliding manner, the sliding part on the first belt wheel 807 is fixedly connected with a water containing tank 702 at the front side, a speed reducing motor 808 is arranged at the inner bottom of the ship plate 6, an output shaft of the speed reducing motor 808 is connected with a second belt wheel 809 through a shaft rod, the second belt wheel 809 is connected with the first belt wheel 807 through a belt in a transmission manner, a rotating roller is rotatably connected at the upper part in the containing tank 802, a plurality of blades 810 are arranged on the rotating roller on the containing tank 802, a plurality of through holes are arranged on the blades 810, purified water in the water containing tank 702 is discharged into the containing tank 802 through a first water discharge pipe 801, the blades 810 rotate at the moment to divide water flowing into the containing tank 802, so that the contact area between the water and the air is larger for increasing the oxygen content of the culture water, the front and rear parts of the bottom in the containing box 802 are inclined surfaces which are inward and downward, the inner bottom of the containing box 802 is a tapered chute which is high at the left and low at the right, so that water after oxygenation in the containing box 802 flows rightwards and is discharged through a second water discharge pipe 817, the inner ends of rotating rollers of the containing box 802 on the front and rear sides are respectively provided with a second bevel gear 811, the upper parts of the inner side surfaces of the containing box 802 on the front and rear sides are provided with a slotted plate 812, the slotted plate 812 is provided with a sliding plate 813 in a sliding manner, the upper part of the sliding plate 813 is rotatably provided with a first rotating shaft 814, the right end of the first rotating shaft 814 is provided with a third bevel gear 815, the second bevel gear 811 is matched with the third bevel gear 815, the left end of the first rotating shaft 814 passes through the moving frame 806, the left end of the first rotating shaft 814 is provided with a fourth bevel gear 816, the fourth bevel gear 816 is meshed with the first bevel gears 805 on the front and rear sides, the lower parts of the right side surfaces of the containing box 802 on the front and rear sides are communicated with the second water discharge pipe 817, the lower part of the second water discharge pipe 817 is provided with a one-way valve, the three bevel gears 815 are respectively meshed with the second bevel gears 811 at the front side and the rear side, so that the blades 810 at the front side and the rear side rotate alternately, the aquaculture water can be better oxygenated, and the third bevel gears 815 are guided to move back and forth through the moving frame 806.

As shown in fig. 9-14, the guiding and rotating mechanism 9 includes two mounting frames 901, n-shaped plates 902, a second rotating shaft 903, a first straight gear 904, a fifth bevel gear 905, a mounting plate 906, a rotating rod 907, a second straight gear 908, an annular plate 910, a sliding sleeve 911, a sixth bevel gear 912, a pin rod 913, a servo motor 914, a third straight gear 915, a support frame 916, a guide wheel 917, a third rotating shaft 918, a seventh bevel gear 919, a U-shaped frame 920, an eighth bevel gear 921, a fourth rotating shaft 922, a ninth bevel gear 923, a tenth bevel gear 924, a fifth rotating shaft 925, a fourth straight gear 926, a fifth straight gear 927 and a sixth straight gear 928, the two mounting frames 901 are respectively connected to upper portions of right side surfaces of the water containing tanks 702 on the front and rear sides, the n-shaped plates 902 are disposed on lower portions of the front and rear sides, a second rotating shaft 903 is rotatably disposed between the mounting frames 901 and the n-shaped plates 902, the outer ends of the second rotating shafts 903 at the front side and the rear side are respectively provided with a first straight gear 904, the inner ends of the second rotating shafts 903 at the front side and the rear side are respectively provided with a fifth bevel gear 905, the upper parts of the mounting frames 901 at the front side and the rear side are rotatably provided with a mounting plate 906, the middle part of the n-shaped plate 902 is rotatably provided with a rotating rod 907, the lower end of the rotating rod 907 is provided with a small bevel gear, the small bevel gear on the rotating rod 907 is meshed with the fifth bevel gear 905, the upper surface of the mounting plate 906 is rotatably provided with a second straight gear 908, the upper surface of the second straight gear 908 is provided with an annular plate 910, the inner surface of the annular plate 910 is provided with a track groove, the upper part of the rotating rod 907 is provided with a sliding sleeve 911 in a spline connection manner, the right part of the mounting plate 906 is provided with a servo motor 914, the output shaft of the servo motor 914 is provided with a third straight gear 915, the third straight gear 915 is meshed with the straight gear 908, the front part and the rear part of the servo motor 914 are respectively provided with a support 916, a group of guide wheels 917 is arranged at the left part of the supporting frame 916, two guide wheels 917 are arranged, a third rotating shaft 918 is arranged in each guide wheel 917 at the rear upper side, a seventh bevel gear 919 is arranged on each third rotating shaft 918, a U-shaped frame 920 is arranged on the left side surface of the supporting frame 916 at the front side, an eighth bevel gear 921 is rotatably connected to the middle part of the U-shaped frame 920 through a shaft rod, fourth rotating shafts 922 are rotatably arranged at the front and rear parts of the U-shaped frame 920, the fourth rotating shaft 922 at the front side is fixedly connected with the guide wheels 917 at the front side, a ninth bevel gear 923 is arranged at one end of the fourth rotating shaft 922, the ninth bevel gears 923 are respectively meshed with the eighth bevel gear 921, a tenth bevel gear 924 is arranged at the rear end of the fourth rotating shaft 922 at the rear side, the tenth bevel gear 924 and the seventh bevel gear 919 are respectively matched with the sixth bevel gear 912, a fifth rotating shaft 925 is rotatably arranged at the upper part of the fixing frame 803, a fourth straight gear 926 is arranged at one end of the fifth rotating shaft 925, fourth straight-toothed gear 926 meshes mutually with first straight-toothed gear 904, fifth straight-toothed gear 927 is installed to the other end of fifth pivot 925, sixth straight-toothed gear 928 is all installed to the outer end of both sides dwang 804, upper and lower adjacent sixth straight-toothed gear 928 meshes mutually with fifth straight-toothed gear 927, cooperate through leading wheel 917 dead lever 2, a direction is moved left for this device, utilize leading wheel 917 touching inductor 5, make this device rotatory 180 degrees, it moves right when this device once more this moment, when leading wheel 917 moves right touching inductor 5, this device rotates 180 degrees once more, it moves left when this device removes once more, so constantly circulate, realize the circulation reciprocating motion of this device.

As shown in fig. 15 and 16, the intermittent water discharging mechanism includes a fixed plate 10, a swing plate 11, hollow plates 12, sliding rods 13, moving rods 14, blocking blocks 15, a transverse plate 16, positioning rods 17 and grooved rollers 18, wherein two fixed plates 10 are respectively installed on the outer side surfaces of front and rear side storage boxes 802, the swing plate 11 is rotatably installed on the vertically adjacent fixed plates 10, two hollow plates 12 are respectively installed on the left and right portions of the swing plate 11, the slide rods 13 are slidably installed on the vertically adjacent hollow plates 12, the front and rear slide rods 13 are fixedly connected with the moving rods 14, the blocking blocks 15 are respectively installed on the front and rear portions of the moving rods 14, the blocking blocks 15 on the left and right sides are respectively located in a first water discharging pipe 801 and a second water discharging pipe 817, the transverse plate 16 is installed on the upper ends of the two left side slide rods 13, the transverse plate 16 is fixedly connected with a transverse plate moving frame 806, the upper surface of the transverse plate 16 is fixedly connected with two positioning rods 17, the grooved rollers 18 are installed on a second rotating shaft 903, the grooved rollers 18 on the front and rear sides are respectively in sliding fit with the positioning rods 17 on the front and rear sides, and the plugging block 15 is moved forward or backward by the cooperation of the grooved rollers 18 and the positioning rods 17, so that the first drain pipe 801 and the second drain pipe 817 are intermittently opened.

When the water pumping device is used, a user starts the water pumping pump 705 to pump water in aquaculture through the water pumping frame 706, the water is discharged upwards into the hollow frame 708 through the water outlet pipe 707, the water in the hollow frame 708 flows out along with the water, the baffle 711 is in contact with the water supply pipe 710 at the front side at the moment, the water supply pipe 710 at the front side is in a closed state, the water in the hollow frame 708 flows into the water containing tank 702 at the rear side along with the water supply pipe 710 at the rear side, the water in the water containing tank 702 at the rear side is continuously increased, so that the hollow spheres 716 at the rear side are in floating movement towards the upper rear side, the annular ring 714 at the rear side is moved backwards through the sliding frame 713 at the rear side, the movable plate 712 is moved backwards to make the baffle 711 swing backwards, the water supply pipe 710 at the rear side is closed by the baffle 711 swinging backwards, the water supply pipe 710 at the front side is opened at the moment, the water in the hollow frame 708 flows into the water tank 702 at the front side through the water supply pipe 710 at the front side, the water in the water tank 702 completes the water purification process through the water purification plate 703, the purified water flows downwards into the bottom of the water tank 702, the water at the bottom of the water tank 702 increases continuously, so that the water purification plate 703 moves upwards, the blocking block 720 moves upwards through the upward movement of the n-shaped rod 721, the blocking block 720 moves upwards to block the blocking pipe 719, and the water in the water tank 702 is prevented from flowing into the sewage tank 718.

When more impurities are stored on the upper surface of the water purification plate 703 and the water purification plate 703 is at the initial position, a user sprays water onto the water purification plate 703 through the nozzle 722, the impurities on the water purification plate 703 are accumulated together by water impact, the water purification plates 703 at two sides are respectively inclined towards the right front side and the right rear side, and the water flow sprayed by the nozzle 722 is small, so that the water purification plate 703 cannot move upwards, the water on the water purification plate 703 flows into the sewage tank 718 through the blocking pipe 719, and when more sewage is stored in the sewage tank 718, the user cleans the sewage in the sewage tank 718.

When the user starts the water pump 705, the user starts the speed reduction motor 808, the speed reduction motor 808 operates to rotate the second pulley 809, the second pulley 809 rotates the first pulley 807 through the belt, the first pulley 807 rotates to rotate the front rotating rod 804, the front rotating rod 804 rotates to rotate the front first bevel gear 805, the front first bevel gear 805 rotates to rotate the fourth bevel gear 816, the fourth bevel gear 816 rotates to rotate the rear first bevel gear 805, the rear rotating rod 804 rotates with it, the rotating rod 804 rotates to rotate the sixth spur gear 928, the sixth spur gear 928 rotates to rotate the fourth spur gear 926, the fourth spur gear 926 rotates to rotate the fifth spur gear 927 through the fifth rotating shaft 925, the fifth spur gear 927 rotates to rotate the first spur gear 904 rotates to rotate the grooved roller 18 through the second rotating shaft 903, the grooved roller 18 rotates to be engaged with the positioning rod 17, the horizontal plate 16 is moved forward or backward, the horizontal plate 16 is moved forward to move the left slide bar 13 forward, the left slide bar 13 moves forward to swing the left portion of the swing plate 11 forward through the left hollow plate 12, the rear portion of the swing plate 11 swings backward, the left moving bar 14 moves forward to move the left blocking block 15 forward, the left front blocking block 15 moves forward to open the front portion of the first drain pipe 801, the left rear blocking block 15 moves forward to block the rear portion of the first drain pipe 801, the right front blocking block 15 moves forward to block the front portion of the second drain pipe 817, and the right rear blocking block 15 moves forward to open the rear portion of the second drain pipe 817.

The transverse plate 16 moves forward to move the moving frame 806 forward, the moving frame 806 moves forward to move the first rotating shaft 814 forward, the first rotating shaft 814 moves forward to move the third bevel gear 815 forward, the third bevel gear 815 moves forward to engage with the second bevel gear 811 at the front side, the first rotating shaft 814, the third bevel gear 815 and the second bevel gear 811 at the front side are matched, so that the vane 810 rotates, purified water in the water containing tank 702 at the front side flows into the water containing tank 802 at the front side through the first water discharge pipe 801, the vane 810 rotates to split water flowing into the water containing tank 802, so that the contact area of water and air is increased, the oxygen content of water is increased, the water in the water containing tank 802 flows rightwards along with the water flowing out through the second water discharge pipe 817, and the water in the second water discharge pipe 817 is prevented from flowing backwards due to the one-way valve arranged in the second water discharge pipe 817.

When the grooved roll 18 rotates to be matched with the positioning rod 17, so that the transverse plate 16 moves backwards, the blocking block 15 on the front left side moves backwards to close the front part of the first drainage pipe 801, the blocking block 15 on the rear left side moves backwards to open the rear part of the first drainage pipe 801, the blocking block 15 on the front right side moves forwards to open the front part of the second drainage pipe 817, the blocking block 15 on the rear right side moves forwards to close the rear part of the second drainage pipe 817, the aquaculture water starts to be purified by the water containing tank 702 on the front side at the moment, the purified aquaculture water in the water containing tank 702 on the rear side is discharged into the containing tank 802 on the rear side through the first drainage pipe 801, the aeration of the aquaculture water is completed by the rotation of the blades 810 on the rear side and the cooperation of the containing tank 802 on the rear side, and the water in the containing tank 802 on the front side flows out through the second drainage pipe 817 along with the rotation of the blades 810 on the rear side, and the processes are repeated alternately, and the problems that the purification process of the aquaculture water is short and the oxygenation time is too short, so that the aquaculture water is not sufficiently purified and oxygenated, and inconvenience is caused to the aquaculture are avoided.

The rotation of the second shaft 903 causes the rotation of the fifth bevel gear 905, the rotation of the fifth bevel gear 905 causes the rotation of the small bevel gear on the rotating rod 907, the rotation of the rotating rod 907 causes the rotation of the sliding sleeve 911, the rotation of the sliding sleeve 911 causes the rotation of the lower sixth bevel gear 912, the rotation of the lower sixth bevel gear 912 causes the rotation of the seventh bevel gear 919 and the ninth bevel gear 923, the rotation of the seventh bevel gear 919 causes the rotation of the rear guide wheel 917 via the third shaft 918, the rotation of the ninth bevel gear 923 causes the rotation of the rear tenth bevel gear 924 via the fourth shaft 922, the rotation of the rear tenth bevel gear 924 causes the rotation of the eighth bevel gear 921, the rotation of the eighth bevel gear 921 causes the rotation of the front tenth bevel gear 924, the rotation of the front guide wheel 917 via the fourth shaft 922, the guide wheel 917 via the fixed rod 2, the device is moved to the left, and when the guide wheel 917 is moved to the left and contacted with the sensor 5, the sensor 5 transmits signals to the servo motor 914 and the speed reducing motor 808, the speed reducing motor 808 is closed for 10 seconds and is started again, the servo motor 914 rotates and closes the third spur gear 915 for one circle, the third spur gear 915 rotates and rotates for one half circle, the second spur gear 908 rotates and rotates to rotate the annular plate 910, the annular plate 910 rotates to be matched with the pin rod, the sliding sleeve 911 rotates 180 degrees, the sliding sleeve 911 moves downwards during the rotation of 180 degrees, the sliding sleeve 911 moves downwards to make the lower sixth bevel gear 912 far away from the seventh bevel gear 919 and the ninth bevel gear 923, the upper sixth spur gear 928 is meshed with the seventh bevel gear 919 and the ninth bevel gear 923, after the upper sixth spur gear 928 is meshed with the seventh bevel gear 919 and the ninth bevel gear 923, the speed reducing motor 928 is started again, and the device 808 is moved to the right, when the guide wheel 917 moves rightwards to contact with the sensor 5, the sensor 5 transmits signals to the servo motor 914 and the reduction motor 808, the reduction motor 808 is turned off for 10 seconds and is started again, during the 10 seconds when the reduction motor 808 is turned off, the servo motor 914 rotates and turns off the third spur gear 915 for one circle, the third spur gear 915 rotates for one circle to rotate the second spur gear 908 for a half circle, the second spur gear 908 rotates to rotate the annular plate 910, the annular plate 910 rotates to be matched with the pin rod 913 to rotate the sliding sleeve 911 for 180 degrees, the sliding sleeve 911 moves upwards during the 180-degree rotation, the sliding sleeve 911 moves upwards to enable the sixth bevel gear 912 on the upper side to be far away from the seventh bevel gear 919 and the ninth bevel gear 923 on the lower side, at the moment, the sixth bevel gear 928 is meshed with the seventh bevel gear 919 and the ninth bevel gear 923, after the sixth bevel gear 928 on the lower side is meshed with the seventh bevel gear 919 and the ninth bevel gear 923, the gear motor 808 at this moment is started again, so that the device moves leftwards, and the operation of purifying and oxygenating water in aquaculture can be completed continuously.

Example 3

On the basis of embodiment 2, as shown in fig. 3, the water-saving device further comprises a protective cover 19, the protective cover 19 is disposed on the upper surface of the containing box 802, and the protective cover 19 blocks water driven by the rotation of the blade 810, so as to prevent the blade 810 from rotating and scattering water.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting the protection scope of the present invention, and although the present invention is described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention.

Claims (9)

1. The utility model provides an aquaculture is with breeding water treatment facilities that has oxygenation function which characterized by: comprises vertical plates (1), fixed rods (2), fixed blocks (3), buffer springs (4), inductors (5), a boat deck (6), a water pumping and filtering mechanism (7), an oxygenation and discharge mechanism (8), a guide rotating mechanism (9) and an intermittent water discharging mechanism, wherein two vertical plates (1) are arranged, two fixed rods (2) are arranged between the two vertical plates (1), the fixed blocks (3) are respectively arranged at two parts of the fixed rods (2), the buffer springs (4) are wound at two parts of the fixed rods (2), one ends of the buffer springs (4) are connected with the adjacent fixed blocks (3), the inductors (5) are respectively arranged at two parts of the fixed rods (2) in a sliding manner, the four inductors (5) are positioned at the inner sides of the four buffer springs (4), the other ends of the buffer springs (4) are fixedly connected with the inductors (5), the water pumping and filtering mechanism (7) is arranged at the upper part of the boat deck (6), an oxygenation discharge mechanism (8) is arranged on the pumping filtering mechanism (7), a guide rotating mechanism (9) is arranged on the upper portion of the pumping filtering mechanism (7), the guide rotating mechanism (9) is arranged in a sliding mode with the two fixing rods (2), the guide rotating mechanism (9) is respectively connected with the four inductors (5) through lines, and an intermittent drainage mechanism is arranged on the oxygenation discharge mechanism (8);

the water pumping and filtering mechanism (7) comprises support plates (701), a water containing tank (702), water purifying plates (703), sliding blocks (704), water pumping pumps (705), water pumping frames (706), water outlet pipes (707), hollow frames (708), arc-shaped frames (709), water conveying pipes (710), water retaining assemblies and cleaning assemblies, four support plates (701) are arranged, the four support plates (701) are all arranged at the inner bottom of the ship plate (6), the water containing tank (702) is fixedly connected between the upper surfaces of two adjacent support plates (701), the water purifying plates (703) are arranged in the water containing tank (702) in a sliding mode through the sliding blocks (704), the water pumping pumps (705) are arranged at the inner bottom of the ship plate (6), the water pumping pumps (705) are located at the lower side of the water containing tank (702), the water pumping frames (706) are arranged on the water pumping pumps (705), the water outlet pipes (707) are arranged on the water pumping pumps (705), the upper ends of the water outlet pipes (707) are provided with the hollow frames (708), arc frame (709) is installed to the right flank lower part of hollow frame (708), and the front and back two of arc frame (709) all are provided with flow pipe (710), and flow pipe (710) of both sides communicate with flourishing water tank (702) of both sides respectively, and the middle part of arc frame (709) is provided with the manger plate subassembly, and the manger plate subassembly slides the setting with flourishing water tank (702) of both sides respectively, is provided with clean subassembly on flourishing water tank (702).

2. The aquaculture water treatment device with the oxygen increasing function according to claim 1, wherein: the front and the back of the inner bottom of the water containing tank (702) are both inclined surfaces which are inward and downward, and the inner bottom of the water containing tank (702) is a tapered chute which is high at the left and low at the right.

3. The aquaculture water treatment device with the oxygen increasing function according to claim 1, wherein: the water retaining assembly comprises a baffle (711), a moving plate (712), a sliding frame (713), an annular ring (714), a connecting rod (715), hollow balls (716) and tension springs (717), the baffle (711) is connected to the arc frame (709) in a rotating mode, the left part of the upper surface of the baffle (711) is provided with the moving plate (712) through a shaft rod in a rotating mode, the sliding frame (713) is fixedly connected to two parts of the moving plate (712), the annular ring (714) is slidably arranged on the sliding frame (713), the connecting rod (715) is installed to the right part of the annular ring (714), the hollow balls (716) are installed at the lower end of the connecting rod (715), the hollow balls (716) on two sides are slidably arranged with the water containing tanks (702) on two sides respectively, and the tension springs (717) are fixedly connected between the arc frame (709) and the moving plate (712).

4. The aquaculture water treatment device with the oxygen increasing function according to claim 1, wherein: the cleaning assembly comprises a sewage tank (718), blocking pipes (719), blocking blocks (720), n-shaped rods (721) and nozzles (722), the sewage tank (718) is installed on the outer side surfaces of the two water containing tanks (702), blocking openings are embedded in the lower portions of the outer surfaces of the sewage tanks (718) on the two sides, the outer side walls of the water containing tanks (702) on the two sides are communicated with the blocking pipes (719), the blocking pipes (719) on the two sides are located in the sewage tanks (718) on the two sides respectively, the blocking blocks (720) are arranged in the blocking pipes (719) in a sliding mode, the n-shaped rods (721) are fixedly connected to the upper surfaces of the blocking blocks (720), the n-shaped rods (721) penetrate through the blocking pipes (719), the sewage tanks (718) and the water containing tanks (702), the n-shaped rods (721) are fixedly connected with sliding blocks (704), and the left side surfaces in the water containing tanks (702) are provided with the plurality of nozzles (722).

5. The aquaculture water treatment device with the oxygen increasing function according to claim 1, wherein: the oxygenation discharge mechanism (8) comprises a first drainage pipe (801), containing boxes (802), a fixed frame (803), a rotating rod (804), a first bevel gear (805), a moving frame (806), a first belt wheel (807), a speed reducing motor (808), a second belt wheel (809), blades (810), a second bevel gear (811), a trough plate (812), a sliding plate (813), a first rotating shaft (814), a third bevel gear (815), a fourth bevel gear (816) and a second drainage pipe (817), wherein the first drainage pipe (801) is communicated with the right parts of the two water containing boxes (702), the right part of the first drainage pipe (801) is communicated with the two containing boxes (802), the two containing boxes (802) are fixedly connected with the inner bottom of the ship plate (6), the fixed frame (803) is installed on the right side surface of the sewage box (718), the rotating rod (804) is installed on the fixed frame (803) in a rotating mode, the inner ends of the splines (804) on the two sides are respectively and provided with the first bevel gear (805) in a sliding mode, a movable frame (806) is arranged outside the first bevel gears (805) on two sides, a first belt wheel (807) is arranged at the front end of a rotating rod (804) on the front side in a sliding manner through splines, a sliding part is arranged on the rear side surface of the first belt wheel (807) in a sliding manner, the sliding part on the first belt wheel (807) is fixedly connected with a water containing tank (702) on the front side, a speed reducing motor (808) is arranged at the inner bottom of the ship plate (6), an output shaft of the speed reducing motor (808) is connected with a second belt wheel (809) through a shaft rod, the second belt wheel (809) is connected with the first belt wheel (807) through belt transmission, rotating rollers are rotatably arranged on the inner upper parts of the containing boxes (802), a plurality of blades (810) are arranged on the rotating rollers on the containing boxes (802), a plurality of through holes are formed in the blades (810), gears (811) are arranged at the inner ends of the rotating rollers on the containing boxes (802) on two sides, and a groove plate (812) is arranged on the inner side surfaces of the inner sides of the containing boxes (802) on the two sides, sliding type is equipped with sliding plate (813) on frid (812), first pivot (814) are installed to the upper portion rotary type of sliding plate (813), third bevel gear (815) are installed to the right-hand member of first pivot (814), second bevel gear (811) and third bevel gear (815) cooperation, the left end of first pivot (814) passes and moves frame (806), fourth bevel gear (816) are installed to the left end of first pivot (814), fourth bevel gear (816) mesh mutually with first bevel gear (805) of both sides, the case (802) right flank lower part intercommunication that holds of both sides has second drain pipe (817), the lower part of second drain pipe (817) is equipped with the check valve.

6. The aquaculture water treatment device with the oxygen increasing function according to claim 5, wherein: the front and the back of the inner bottom of the containing box (802) are inclined planes which are inward and downward, and the inner bottom of the containing box (802) is a tapered chute which is high at the left and low at the right.

7. The aquaculture water treatment device with the oxygen increasing function according to claim 1, wherein: the guide rotating mechanism (9) comprises two mounting frames (901), an n-shaped plate (902), a second rotating shaft (903), a first straight gear (904), a fifth bevel gear (905), a mounting plate (906), a rotating rod (907), a second straight gear (908), an annular plate (910), a sliding sleeve (911), a sixth bevel gear (912), a pin rod (913), a servo motor (914), a third straight gear (915), a support frame (916), a guide wheel (917), a third rotating shaft (918), a seventh bevel gear (919), a U-shaped frame (920), an eighth bevel gear (921), a fourth rotating shaft (922), a ninth bevel gear (923), a tenth bevel gear (924), a fifth rotating shaft (925), a fourth straight gear (926), a fifth straight gear (927) and a sixth straight gear (928), the two mounting frames (901) are respectively connected to the upper parts of the right side faces of the water containing tanks (702) on the two sides, an n-shaped plate (902) is arranged at the lower parts of the two mounting frames (901), a second rotating shaft (903) is rotatably arranged between the mounting frames (901) and the n-shaped plate (902), first straight gears (904) are respectively arranged at the outer ends of the second rotating shafts (903) at the two sides, fifth bevel gears (905) are respectively arranged at the inner ends of the second rotating shafts (903) at the two sides, a mounting plate (906) is rotatably arranged at the upper parts of the mounting frames (901) at the two sides, a rotating rod (907) is rotatably arranged at the middle part of the n-shaped plate (902), a small bevel gear is arranged at the lower end of the rotating rod (907), the small bevel gear on the rotating rod (907) is meshed with the fifth bevel gear (905), a second straight gear (908) is rotatably arranged on the upper surface of the mounting plate (906), an annular plate (910) is arranged on the upper surface of the second straight gear (908), a track groove is formed in the inner surface of the annular plate (910), a sliding sleeve (911) is arranged at the upper part of the rotating rod (907) in a spline connection mode, a pin rod (913) is arranged at the lower part of a sliding sleeve (911), the pin rod (913) is arranged in a track groove of a ring-shaped plate (910) in a sliding manner, two sixth bevel gears (912) are fixedly connected to the sliding sleeve (911), a servo motor (914) is arranged at the right part of a mounting plate (906), a third straight gear (915) is arranged on an output shaft of the servo motor (914), the third straight gear (915) is meshed with the second straight gear (908), support frames (916) are respectively arranged at two parts of the servo motor (914), a group of guide wheels (917) are arranged at the left part of the support frames (916), a group of guide wheels (917) is arranged at two parts, a third rotating shaft (918) is arranged in each guide wheel (917) at the rear upper side, a seventh bevel gear (919) is arranged on each third rotating shaft (918), a U-shaped frame (920) is arranged on the left side surface of each support frame (916) at the front side, and an eighth bevel gear (921) is connected to the middle part of each U-shaped frame (920) in a rotating manner, a fourth rotating shaft (922) is rotatably installed at two parts of the U-shaped frame (920), the fourth rotating shaft (922) at the front side is fixedly connected with a guide wheel (917) at the front side, ninth bevel gears (923) are installed at one ends of the fourth rotating shaft (922), the two ninth bevel gears (923) are respectively meshed with eighth bevel gears (921), a tenth bevel gear (924) is installed at the rear end of the fourth rotating shaft (922) at the rear side, the tenth bevel gear (924) and the seventh bevel gear (919) are matched with a sixth bevel gear (912), a fifth rotating shaft (925) is rotatably installed at the upper part of the fixed frame (803), a fourth straight gear (926) is installed at one end of the fifth rotating shaft (925), the fourth straight gear (926) is meshed with the first straight gear (904), a fifth straight gear (927) is installed at the other end of the fifth rotating shaft (925), sixth straight gears (928) are installed at the outer ends of two sides (804) of the rotating rod, the sixth straight gear (928) which is adjacent up and down is meshed with the fifth straight gear (927).

8. The aquaculture water treatment device with the oxygen increasing function according to claim 1, wherein: the intermittent water discharging mechanism comprises fixing plates (10), swinging plates (11), hollow plates (12), sliding rods (13), moving rods (14), blocking blocks (15), transverse plates (16), positioning rods (17) and groove rollers (18), wherein the two fixing plates (10) are respectively installed on the outer side surfaces of two side containing boxes (802), the swinging plates (11) are rotatably installed on the fixing plates (10) which are adjacent to each other up and down, the two hollow plates (12) are respectively installed on the two parts of the swinging plates (11), the sliding rods (13) are slidably arranged on the hollow plates (12) which are adjacent to each other up and down, the moving rods (14) are fixedly connected with the two corresponding sliding rods (13), the blocking blocks (15) are respectively installed on the two parts of the moving rods (14), the blocking blocks (15) on the left side and the right side are respectively located in a first water discharging pipe (801) and a second water discharging pipe (817), the transverse plates (16) are installed on the upper ends of the two sliding rods (13) on the left side, the transverse plate (16) is fixedly connected with the moving frame (806), the upper surface of the transverse plate (16) is fixedly connected with two positioning rods (17), the second rotating shaft (903) is provided with groove rollers (18), and the groove rollers (18) on the two sides are respectively in sliding fit with the positioning rods (17) on the two sides.

9. The aquaculture water treatment device with the oxygen increasing function according to claim 1, wherein: the box is characterized by further comprising a protective cover (19), wherein the protective cover (19) is arranged on the upper surface of the containing box (802).

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