CN106689018A - Aquaculture pond - Google Patents

Abstract

The invention discloses an aquaculture pond. The aquaculture pond comprises a pond body, two oxygen supply chambers, two rail grooves, two slide tables, an oxygen supply pipe, a rotating motor, a bearing seat and an air blower, wherein the two oxygen supply chambers are arranged at the upper ends of a left pond platform and a right pond platform of the pond body respectively, slide grooves are formed in the sidewalls, facing a pond cavity, of the oxygen supply chambers, the two rail grooves are formed in the bottoms of the two oxygen supply chambers respectively, the two slide tables are arranged on the rail grooves respectively, the oxygen supply pipe comprises two end pipes and a U-shaped pipe, the two end pipes are connected with longitudinal pipe bodies of the U-shaped pipe respectively and pass through the slide grooves respectively, a transverse pipe body of the U-shaped pipe is provided with vent holes, the rotating motor is arranged on the left slide table and connected with the left end pipe, the bearing seat is arranged on the right slide table, the right end pipe sleeves the bearing seat, and the air blower is arranged on the slide table of one of the oxygen supply chambers and is connected with the end pipe positioned in the same oxygen supply chamber. The aquaculture pond has the advantage that the oxygen supply pipe is capable of swinging and moving back and forth to deliver air to different positions of water bodies in the pond cavity, so that oxygen aeration efficiency is improved.

Description

A kind of aquaculture pond

Technical field

The present invention relates to technical field of aquaculture, more particularly to a kind of aquaculture pond.

Background technology

Aquaculture is breeding, cultivation and the production activity of results aquatic animals and plants under manual control.It is commonly included in people The overall process of aquatic products is formed under work feeding and management from seed.Broadly may also comprise Enhancement of fishery resources.Aquaculture has slightly The mode such as foster, intensive culture and high density culture.Intensive culture refers to be cultivated in culturing pool, box for breeding and fence etc. are compared with small size pond.

The oxygen-increasing device of existing aquaculture pond is mainly has point type to concentrate oxygen-increasing device, waterwheel aerator and impeller Formula aerator, oxygenation efficiency is low, consumes mass energy, and poisonous and harmful substances carry out degradation reaction during oxygenation amount is insufficient to allow water, Aquatic products animals and plants health Fast Growth cannot be ensured, aquaculture efficiency is had a strong impact on.

The information for being disclosed in the background section is merely intended to increase the understanding to general background of the invention, without answering In being considered as recognizing or imply in any form that the information structure has been the prior art well known to persons skilled in the art.

The content of the invention

It is an object of the invention to provide a kind of aquaculture pond, so as to overcome the oxygen-increasing device of existing aquaculture pond Oxygenation efficiency it is low and consumption mass energy shortcoming.

To achieve the above object, the invention provides a kind of aquaculture pond, wherein, including：Pond body, its cell cavity is rectangular Shape；Liang Ge oxygen supplying chamber, the upper end of two Chi Tai in left and right of the pond body is each provided with the oxygen supplying chamber；And each oxygen supplying chamber The side wall in the cell cavity is provided with a chute；Two rail grooves, the bottom of two oxygen supplying chamber is each provided with one Individual rail groove being distributed along the longitudinal direction；Two sliding stands, two sliding stands are each can be set in the way of slide anteroposterior In on a rail groove；Two sliding stands are respectively driven into line slip by a slide mechanism；Oxygen supplying tube, it includes two ends Pipe and an opening up U-tube, the upper end of two end pipes respectively with a longitudinal tubule (L tubule) for the U-tube are connected, and two Individual each activity of the end pipe is extended in an oxygen supplying chamber after passing through a chute；Set on the transverse tube of the U-tube It is equipped with several ventholes；Rotary electric machine, it is fixedly installed on the sliding stand in left side, and the rotary electric machine and left side The end pipe connection；Bearing block, it is fixedly installed on the sliding stand on right side, and right side the end pipe can rotate Mode be sheathed on the bearing block；And air blower, it is disposed therein on a sliding stand of the oxygen supplying chamber, and The oxygen supplying chamber where the air blower is provided with ventilating opening；The air blower is by a tracheae and is located at the same oxygen supplying chamber The interior end pipe is attached.

Preferably, in above-mentioned technical proposal, the upper end of each oxygen supplying chamber is provided with a cover plate.

Preferably, in above-mentioned technical proposal, the front and rear both sides of the transverse tube of the U-tube are each provided with several outlets Hole.

Preferably, in above-mentioned technical proposal, the venthole of the front and rear both sides of the transverse tube of the U-tube is in staggered distribution.

Preferably, in above-mentioned technical proposal, several outlets are each provided with two longitudinal tubule (L tubule)s of the U-tube Hole.

Preferably, in above-mentioned technical proposal, the air blower is arranged on the sliding stand of the oxygen supplying chamber on right side.

Compared with prior art, the present invention has the advantages that：

Oxygen supplying tube of the invention can be driven by rotary electric machine and carry out swing, can adjust height of the transverse tube in pond Spend, and oxygen supplying tube can be moved forward and backward with sliding stand, to adjust front and back position of the transverse tube in pond, so as to cell cavity Interior drum can uniformly blast air when entering air by changing the position of the transverse tube of oxygen supplying tube to each position in pond, from And the efficiency during oxygen is dissolved into water body is improved, to improve efficiency of oxygen supply.

Brief description of the drawings

Fig. 1 is the structural representation according to aquaculture pond of the present invention.

Main Reference Numerals explanation：

1- pond bodies, 11- cell cavities；2- oxygen supplying chamber, 21- chutes, 22- ventilating openings, 23- cover plates；3- rail grooves；4- sliding stands； 5- oxygen supplying tubes, 51- end pipes, 52- longitudinal tubule (L tubule)s, 53- transverse tubes, 54- ventholes；6- rotary electric machines；7- bearing blocks；8- air blowers, 81- gas Pipe.

Specific embodiment

Below in conjunction with the accompanying drawings, specific embodiment of the invention is described in detail, it is to be understood that guarantor of the invention Shield scope is not limited by specific embodiment.

Explicitly indicated that unless otherwise other, otherwise in entire disclosure and claims, term " including " or its change Change such as "comprising" or " including " etc. and will be understood to comprise stated element or part, and do not exclude other units Part or other parts.

Fig. 1 shows a kind of structural representation of aquaculture pond according to the preferred embodiment of the present invention, and the aquatic products is supported Growing pond includes pond body 1, oxygen supplying chamber 2, rail groove 3, sliding stand 4, oxygen supplying tube 5, rotary electric machine 6, bearing block 7 and air blower 8, ginseng Examine Fig. 1, the rectangular shape of cell cavity 11 of pond body 1, pond body 1 is along forming four Chi Tai around cell cavity 11.The pond of left and right two of pond body 1 The upper end of platform is each provided with an oxygen supplying chamber 2, and each oxygen supplying chamber 2 is provided with a chute 21 towards the side wall in cell cavity 11, sliding Groove 21 is in long groove shape, and it is distributed along the longitudinal direction.The bottom of Liang Ge oxygen supplying chamber 2 is each provided with a rail being distributed along the longitudinal direction Road groove 3, two sliding stands 4 are each can be arranged on a rail groove 3 in the way of slide anteroposterior, so that sliding stand 4 can Moved forward and backward in corresponding oxygen supplying chamber 2.Two sliding stands 4 are respectively driven into line slip, slide mechanism by a slide mechanism It can be motor-driven screw body or pinion and rack, or Driven by Hydraulic Cylinder mechanism etc..

With continued reference to Fig. 1, oxygen supplying tube 5 includes two end pipes 51 and an opening up U-tube, and U-tube is horizontal by one The longitudinal tubule (L tubule) 52 that pipe 53 and two lower ends are respectively connected with one end of transverse tube 53 is constituted, two end pipes 51 respectively with a longitudinal tubule (L tubule) for U-tube Extended in an oxygen supplying chamber 2 after 52 upper end connects, and two each activities of end pipe 51 pass through a chute 21, due to end pipe 51 Be activity through chute 21, therefore two end pipes 51 can around its axis positive and negative rotation so that U-tube is with being swung, two Individual end pipe 51 can also be moved forward and backward along chute 21, so that U-tube is with being moved forward and backward.The transverse tube 53 of U-tube On be provided with several ventholes 54, the air in transverse tube 53 is flowed out in the water body in cell cavity 11 by venthole 54.It is preferred that Ground, the front and rear both sides of the transverse tube 53 of U-tube are each provided with several ventholes 54, and the front and rear both sides of the transverse tube 53 of U-tube Venthole 54 is in staggered distribution, with enable air to it is dispersed enter into water body, so as to improve oxygen be dissolved into water Efficiency.By the rotation of two end pipes 51 and movable can make transverse tube 53 in the different height and different anteroposterior positions of water body It is set to water body conveying air.It is further preferred that several ventholes 54 are also each provided with two longitudinal tubule (L tubule)s 52 of U-tube, from And increase oxygen supplying tube 5 in the position to water body supply air and scope.

With continued reference to Fig. 1, rotary electric machine 6 is fixedly installed on the sliding stand 4 in left side, is moved with sliding stand 4, And rotary electric machine 6 is connected with the end pipe 51 in left side.Bearing block 7 is fixedly installed on the sliding stand 4 on right side with as sliding stand enters Row is moved, and the end pipe 51 on right side is rotatably sheathed on bearing block 7, and rotary electric machine 6 is driven by rotating Dynamic oxygen supplying tube 5 is swung.It is obvious also possible to rotary electric machine 6 is arranged on the sliding stand 4 on right side, and bearing block 7 is set In on the sliding stand 4 in left side.Air blower 8 is disposed therein on a sliding stand for oxygen supplying chamber 24, due to left side oxygen supplying chamber 2 It is configured to have rotary electric machine 6, therefore in order that two load equities of sliding stand 4, can be arranged at air blower 8 oxygen supply on right side In room 2.Oxygen supplying chamber 2 where air blower 8 is provided with ventilating opening 22, and air blower 8 is by a tracheae 81 and is located at same oxygen supply End pipe 51 in room 2 is attached, and air blower 8 from corresponding end pipe 51 after air pressurized being conveyed to oxygen supplying tube 5.

Oxygen supplying tube of the invention 5 can be driven by rotating electric 6 machine and carry out swing, can adjust transverse tube 53 in pond Height, and oxygen supplying tube 5 can be moved forward and backward with sliding stand 4, to adjust front and back position of the transverse tube 53 in pond so that Drum in cell cavity 11 when entering air can by change oxygen supplying tube 5 transverse tube 53 position come equal to each position in pond It is even to blast air, so that the efficiency during oxygen is dissolved into water body is improved, to improve efficiency of oxygen supply.With continued reference to Fig. 1, it is preferable that The upper end of each oxygen supplying chamber 2 is provided with a cover plate 23, and in normal use, cover plate 23 is remained turned-off, with oxygen supplying chamber 2 All parts are protected, and when needing to carry out maintenance to all parts, then open cover plate 23.

The foregoing description to specific illustrative embodiment of the invention be in order to illustrate and illustration purpose.These descriptions It is not wishing to limit the invention to disclosed precise forms, and it will be apparent that according to above-mentioned teaching, can be much changed And change.The purpose of selecting and describing the exemplary embodiment is that explaining that certain principles of the invention and its reality should With so that those skilled in the art can realize and using a variety of exemplaries of the invention and A variety of selections and change.The scope of the present invention is intended to be limited by claims and its equivalents.

Claims (6)

1. a kind of aquaculture pond, it is characterised in that including：

Pond body, the rectangular shape of its cell cavity；

Liang Ge oxygen supplying chamber, the upper end of two Chi Tai in left and right of the pond body is each provided with the oxygen supplying chamber；And each oxygen supply Room towards the side wall in the cell cavity is provided with a chute；

Two rail grooves, the bottom of two oxygen supplying chamber is each provided with the rail groove being distributed along the longitudinal direction；

Two sliding stands, two sliding stands are each can be arranged on a rail groove in the way of slide anteroposterior；Two The sliding stand is respectively driven into line slip by a slide mechanism；

Oxygen supplying tube, it includes two end pipes and an opening up U-tube, two end pipes respectively with a U-shaped An oxygen supplying chamber is extended to after the upper end of the longitudinal tubule (L tubule) of pipe connects, and two each activities of end pipe pass through a chute It is interior；Several ventholes are provided with the transverse tube of the U-tube；

Rotary electric machine, it is fixedly installed on the sliding stand in left side, and the rotary electric machine is connected with the end pipe in left side；

Bearing block, it is fixedly installed on the sliding stand on right side, and the end pipe on right side rotatably covers On the bearing block；And

Air blower, it is disposed therein on a sliding stand of the oxygen supplying chamber, and the oxygen supply where the air blower Room is provided with ventilating opening；The air blower is attached by a tracheae with the end pipe in the same oxygen supplying chamber.

2. aquaculture pond according to claim 1, it is characterised in that the upper end of each oxygen supplying chamber is provided with Cover plate.

3. aquaculture pond according to claim 1, it is characterised in that the front and rear both sides of the transverse tube of the U-tube respectively set It is equipped with several ventholes.

4. aquaculture pond according to claim 3, it is characterised in that the institute of the front and rear both sides of the transverse tube of the U-tube Venthole is stated to be in staggered distribution.

5. aquaculture pond according to claim 1, it is characterised in that respectively set on two longitudinal tubule (L tubule)s of the U-tube It is equipped with several ventholes.

6. aquaculture pond according to claim 1, it is characterised in that the air blower is arranged at the oxygen supply on right side On the sliding stand of room.