A kind of comprehensive oxygen-increasing device of pond culture
Technical field
The present invention relates to aquacultural machinery technical field, be specially a kind of comprehensive oxygen-increasing device of pond culture.
Background technology
In order to increase dissolved oxygen in pond waters and improve the convection current degree of current at all levels in water body, the activity of uniform water quality and raising water body simultaneously, water body is carried out oxygen supplement operation by many employings equipment, although it is water jet simple with aeration type equipment, but it is relatively low to melt oxygen, contact uneven with water body, mostly emerge with the situation of bubble, and the diving depth of equipment is fixing, can not carry out the water body of different levels omnibearing melting oxygen, simultaneously need to artificially on equipment, pond is carried out operation by operation reciprocating motion, labor intensity is bigger, for this, it is proposed that a kind of comprehensive oxygen-increasing device of pond culture.
Summary of the invention
It is an object of the invention to provide a kind of comprehensive oxygen-increasing device of pond culture, with the problem solving to propose in above-mentioned background technology.
For achieving the above object, the present invention provides following technical scheme: a kind of comprehensive oxygen-increasing device of pond culture, including track, be slidably connected on described track pedestal, described pedestal is provided with drive motor, described pedestal left surface fixes connecting sliding rail, be slidably connected on described slide rail slide block, described slide block trailing flank is connected by pillar and kickboard are fixing, the described kickboard left and right sides is provided with turbine, described turbine is electrically connected with the controller, described controller is located at the upper surface left end of kickboard, the lower surface of described kickboard is provided with immersible pump, described immersible pump is connected with one end of water inlet pipe, the other end of described water inlet pipe runs through kickboard and connects with centrifugal pump, the left side of described centrifugal pump connects the first header, described first header right-hand member is provided with valve, described first header is provided with air inlet pipe, described air inlet pipe is provided with intake valve, described first header connects one end of the second header, the other end of described second header is connected through kickboard with one end of delivery hose, the other end of described delivery hose connects with current distribution plate, described current distribution plate side is provided with micropore aeration pipe, described current distribution plate upper surface fixes the one end connecting hydraulically extensible bar, the other end of described hydraulically extensible bar is connected through kickboard with hydraulic cylinder, described hydraulic cylinder is located at the upper surface of kickboard.
Preferably, described air inlet pipe is 60 degree with the angle of the first header.
Preferably, described micropore aeration pipe there is nanometer micropore.
Preferably, the diameter of described second header is less than the first header.
Compared with prior art, the invention has the beneficial effects as follows: the comprehensive oxygen-increasing device of this pond culture is by the Three dimensions control of two slide rails of transverse and longitudinal and hydraulically extensible bar, operation area, pond can be positioned accurately, comprehensive multi-level melt oxygen, produce low pressure by the fluid accelerated and suck air, after fully dissolving, pass through nanometer micropore spray uniformly, oxygen is made to contact fusion fully with the water body in pond, oxygen-enriching, this device is simple to operate, and oxygen supplement efficiency is high.
Accompanying drawing explanation
Fig. 1 is present configuration schematic diagram.
In figure: 1 track, 2 pedestals, 3 slide rails, 4 slide blocks, 5 kickboards, 6 centrifugal pumps, 7 water inlet pipes, 8 immersible pumps, 9 first headers, 10 valves, 11 air inlet pipe, 12 intake valves, 13 second headers, 14 delivery hoses, 15 current distribution plates, 16 micropore aeration pipes, 17 hydraulically extensible bars, 18 hydraulic cylinders, 19 turbines, 20 controllers, 21 drive motors.
Detailed description of the invention
Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is only a part of embodiment of the present invention, rather than whole embodiments.Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art obtain under not making creative work premise, broadly fall into the scope of protection of the invention.
Refer to Fig. 1, the present invention provides a kind of technical scheme: a kind of comprehensive oxygen-increasing device of pond culture, including track 1, be slidably connected on track 1 pedestal 2, pedestal 2 is provided with drive motor 21, drive motor 21 controls pedestal 2 slip on path 1, enable a device to carry out longitudinal displacement, pedestal 2 left surface fixes connecting sliding rail 3, be slidably connected on slide rail 3 slide block 4, slide block 4 trailing flank is connected by pillar is fixing with kickboard 5, kickboard 5 left and right sides is provided with turbine 19, slide rail 3 and slide block 4 determine the transverse shifting track of device, turbine 19 provides power for transverse shifting, turbine 19 electrically connects with controller 20, controller 20 is located at the upper surface left end of kickboard 5, the lower surface of kickboard 5 is provided with immersible pump 8, immersible pump 8 is connected with one end of water inlet pipe 7, the other end of water inlet pipe 7 runs through kickboard 5 and connects with centrifugal pump 6, water is sucked by immersible pump 8, by then water inlet pipe 7 suction centrifugal pump 6 accelerates, the left side of centrifugal pump 6 connects the first header 9, first header 9 right-hand member is provided with valve 10, first header 9 is provided with air inlet pipe 11, the angle of air inlet pipe 11 and the first header 9 is 60 degree, swiftly flowing water body goes out to produce low pressure in air inlet pipe 11, suck air, being designed to of 60 degree of angles produces bigger negative pressure, air inlet pipe 11 is provided with intake valve 12, first header 9 connects one end of the second header 13, the other end of the second header 13 is connected through kickboard 5 with one end of delivery hose 14, the diameter of the second header 13 is less than the first header 9, the fluid being mixed into oxygen can be pressurizeed by diameter reduce further, the other end of delivery hose 14 connects with current distribution plate 15, current distribution plate 15 side is provided with micropore aeration pipe 16, micropore aeration pipe 16 there is nanometer micropore, fully melt the fluid uniform injection by nanometer micropore of oxygen, oxygen is made to contact fusion fully with the water body in pond, oxygen supplement efficiency is high, current distribution plate 15 upper surface fixes the one end connecting hydraulically extensible bar 17, the other end of hydraulically extensible bar 17 is connected through kickboard 5 with hydraulic cylinder 18, hydraulic cylinder 18 is located at the upper surface of kickboard 5, the degree of depth of operation water layer can be adjusted by hydraulically extensible bar 17, finally realize the omnibearing oxygen supplement to cultivating pool, improve efficiency, reduce labor intensity.
Although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, being appreciated that and these embodiments can be carried out multiple change, amendment, replacement and modification without departing from the principles and spirit of the present invention, the scope of the present invention be defined by the appended.