CN111903601B

CN111903601B - Water pump oxygen-increasing machine for cultivation

Info

Publication number: CN111903601B
Application number: CN202010951999.3A
Authority: CN
Inventors: 金飞
Original assignee: Shenzhen Xingrisheng Ind Co Ltd
Current assignee: Shenzhen Xingrisheng Ind Co Ltd
Priority date: 2020-09-11
Filing date: 2020-09-11
Publication date: 2022-05-27
Anticipated expiration: 2040-09-11
Also published as: CN111903601A

Abstract

The invention relates to the field of an aerator, in particular to a water pump aerator for cultivation, which comprises an arranging mechanism, a pumping mechanism, an inflating mechanism, a draining mechanism and a mixing mechanism, wherein the arranging mechanism is used for arranging a water pump; it is convenient for float fixedly the device to set up through settling the mechanism, be convenient for carry out the circulation with rivers and flow through the setting of mechanism of drawing water, make things convenient for the oxygenation operation requirement in later stage, be convenient for improve air density through the setting of inflating the mechanism, perfect the oxygenation requirement of follow-up equipment, the setting through hydrophobic mechanism can in time discharge the inside rivers of inflating the mechanism, thereby play the effect of choke drainage to inflating the mechanism, the life of inflating equipment has been prolonged, it mixes dissolving to be convenient for mix the water that comes in with highly-compressed air and pump sending through setting up of mixing mechanism, improve the oxygen content in the rivers.

Description

Water pump oxygen-increasing machine for breeding

Technical Field

The invention relates to the field of oxygen increasing machines, in particular to a water pump oxygen increasing machine for cultivation.

Background

An aerator is a machine that is often used in fishery aquaculture. The main function of the device is to increase the oxygen content in water to ensure that the fish in the water can not lack oxygen, and simultaneously can inhibit the growth of anaerobic bacteria in the water, thereby preventing the deterioration of pond water from threatening the living environment of the fish. The aerator generally pumps air into water by an air pump carried by the aerator so as to achieve the purpose of increasing the oxygen content in the water. The aerator is a device which drives working parts through power sources such as a motor or a diesel engine and the like to quickly transfer oxygen in the air to aquaculture water, can comprehensively utilize functions such as physics, chemistry, biology and the like, not only can solve the problem of fish floating head caused by oxygen deficiency in pond aquaculture, but also can eliminate harmful gas, promote water convection exchange, improve water quality conditions, reduce feed coefficient, improve activity and primary productivity of a fish pond, further improve stocking density, increase ingestion strength of aquaculture objects, promote growth, greatly improve yield per mu and fully achieve the purpose of aquaculture income increase.

Traditional oxygen-increasing machine utilizes the motor to drive the screw mostly, gets rid of water through the screw and all around, then the rivers fully contact the air in the whipping air, later in fusing breed pond to this improves the content of aquatic oxygen, and the operating means of this kind has increased moisture evaporation rate easily, and the noise can be made to the screw of continuous stirring, and the screw causes easily in the gyration that the aquatic products that are wiped and bump are injured.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a water pump aerator for cultivation.

The technical scheme adopted by the invention for solving the technical problems is as follows: an aerator of a water pump for cultivation comprises a placement mechanism, a pumping mechanism, an aerating mechanism, a draining mechanism and a mixing mechanism, the arrangement mechanism used for floating the whole device on the water surface and providing operation power for the internal mechanism is arranged on the culture water surface, a water pumping mechanism for circulating water flow in the culture pond is arranged in the arranging mechanism, an inflating mechanism for gathering high-pressure air is arranged at one side of the water pumping mechanism, the inflating mechanism is fixed in the arranging mechanism, the water draining mechanism for performing air blocking and water draining functions on the inflating mechanism is arranged in the inflating mechanism, the mixing mechanism used for mixing the substances in the water pumping mechanism and the inflating mechanism is communicated between the water pumping mechanism and the inflating mechanism, and the mixing mechanism is arranged in the arranging mechanism.

It is specific, settle mechanism includes fixation case, kicking block, gim peg, driving motor, belt pulley, belt, suction box and plenum chamber, the bottom at fixation case both ends is fixed with one respectively the kicking block, two the kicking block deviates from one side of fixation case is fixed with two respectively the gim peg, the internally mounted of fixation case has driving motor the suction box with the plenum chamber, driving motor locates the middle part of fixation case, the suction box with the plenum chamber is located driving motor's both sides, driving motor the suction box with the one end of plenum chamber is equipped with one respectively the belt pulley, the winding has between the belt pulley.

It is specific, pumping mechanism includes drinking-water pipe, first pivot, carousel, rubber diaphragm, first connecting rod, delivery pipe, baffle and extension spring, is located drinking-water tank one end the middle part of belt pulley is fixed with first pivot, the one end of first pivot extends to the inside of drinking-water tank just is fixed with the carousel, the bottom of carousel is equipped with the rubber diaphragm, rubber diaphragm fixed connection in on the inner wall of drinking-water tank, the rubber diaphragm with rotate between the carousel and have first connecting rod, the bottom of drinking-water tank is equipped with the drinking-water pipe, the drinking-water pipe communicate in the inside of drinking-water tank, one side intercommunication of drinking-water tank has the delivery pipe, the drinking-water pipe with the inside of delivery pipe all rotates one the baffle, one side of baffle is fixed with the extension spring, one of them the one end of extension spring is fixed in on the inner wall of drinking-water pipe and another the one end of extension spring is fixed in the delivery pipe The inner wall of the water supply pipe.

Specifically, the inflation mechanism comprises an air filter cap, an air inlet pipe, an air storage tank, a second rotating shaft, a cam, a second connecting rod, a piston, an air storage pipe, a stop block, a sliding rod and a first spring, the air storage tank is fixed at the bottom end of the inflation box, the bottom end of the air storage tank is fixed on the inner wall of the fixed box, the second rotating shaft is fixed at the middle part of the belt pulley, which is positioned at one end of the inflation box, the other end of the second rotating shaft extends into the inflation box and is fixed with the cam, the piston is arranged at the bottom end of the cam and is connected to the interior of the inflation box in a sliding manner, the second connecting rod rotates between the piston and the cam, the air inlet pipe and the air storage pipe are arranged at the bottom end of the piston, the bottom end of the air inlet pipe is communicated with the interior of the inflation box, and the top end of the air inlet pipe extends to the top end of the fixed box, the air filter cap is installed on the top end of the air inlet pipe, the air storage tank is communicated with the inflation box through the air storage pipe, the air inlet pipe and the inside of the air storage pipe are respectively provided with one stop block, one end of the stop block is fixed with the slide rod, the slide rod slides in the first spring is wound on the inside of the air inlet pipe and the side wall, one end of the first spring is fixed on the side wall of the stop block, and the other end of the first spring is fixed on the inner wall of the air inlet pipe.

Specifically, the drainage mechanism comprises a water inlet hole, a sliding cavity, floating balls, vent holes and sliding columns, the water inlet hole and the sliding cavity are arranged inside the bottom end of the air storage tank, the water inlet hole is communicated with the sliding cavity, the sliding columns and the two floating balls are arranged inside the sliding cavity, the sliding columns are connected inside the sliding cavity in a sliding mode, and the vent holes are formed inside the sliding columns.

Specifically, the mixing mechanism includes drain pipe, blast pipe, mixing chamber, stopper ball, second spring, stirring wheel and outlet pipe, the inside of fixed case is equipped with the mixing chamber, the mixing chamber with the intercommunication has between the gas holder the blast pipe, just the mixing chamber with the intercommunication has between the suction box the drain pipe, the drain pipe with the inside of blast pipe is equipped with one respectively the stopper ball, the one end of stopper ball is fixed with the second spring, the other end of second spring is fixed in on the inner wall of blast pipe, the inside of mixing chamber is rotated and is had the stirring wheel, the other end intercommunication of mixing chamber has the outlet pipe, the one end of outlet pipe extends to the outside of fixed case.

The invention has the beneficial effects that:

(1) according to the water pump aerator for cultivation, the arrangement mechanism is arranged on the cultivation water surface, the whole aerator is conveniently floated and fixed on a certain water area through the arrangement of the arrangement mechanism, and the internal power parts perfect the normal operation of the internal different function mechanisms.

(2) The water pumping mechanism is arranged inside the arranging mechanism, water flow can conveniently flow circularly through the arrangement of the water pumping mechanism, the later oxygen increasing operation requirement is convenient, the inflating mechanism is arranged on one side of the water pumping mechanism and is fixed inside the arranging mechanism, the air density can be conveniently improved through the arrangement of the inflating mechanism, the oxygen increasing requirement of subsequent equipment is perfected, namely, a driving motor is started firstly and drives a plurality of belt pulleys through a belt, one belt pulley drives a first rotating shaft, the first rotating shaft causes a rotating disc inside a water pumping box to rotate, the first connecting rod drives a rubber diaphragm to reciprocate, rotating parts are prevented from being in direct contact with the water flow through the arrangement of the rubber diaphragm, the water source is prevented from being polluted by lubricating substances inside, and the quality of a water source in a culture pond is ensured, the baffle in water supply pipe and the pumping pipe and the motion of extension spring cooperation rubber diaphragm produced the power of pumping at this moment, then rivers enter into the inside of pumping box through the pumping pipe, inside being pushed to the water supply pipe again after that, and then be convenient for carry out the circulation flow with rivers, make things convenient for the oxygenation operation requirement in later stage, because the cam that another belt pulley passes through the second pivot drive the gas tank inside rotates promptly, then the cam leads to the piston to reciprocate to do work through the second connecting rod, synchronous intake pipe can be along with the slip of piston and the one-way inspiration that lasts, and the inside dog of gas storage pipe is one-way exhaust then, the inside air of final gas holder is amassed more, pressure is also bigger and bigger, and then be convenient for improve air density, perfect the oxygenation requirement of follow-up equipment.

(3) The invention relates to a water pump aerator for cultivation, wherein a hydrophobic mechanism is arranged inside an aerating mechanism, water flow inside the aerating mechanism can be timely discharged through the arrangement of the hydrophobic mechanism, so that the aerating mechanism has the functions of air resistance and water drainage, the service life of aerating equipment is prolonged, a mixing mechanism is communicated between a water pumping mechanism and the aerating mechanism, the mixing mechanism is arranged inside a placement mechanism, high-pressure air and pumped water are conveniently mixed and dissolved through the arrangement of the mixing mechanism, the oxygen content in the water flow is improved, namely, accumulated water is easily accumulated inside the aerating mechanism in long-time use, the service life of a gas storage part is easily shortened in a high-pressure high-temperature high-humidity environment for a long time, and in order to solve the problems, a water inlet hole is arranged at the bottom end of a gas storage tank, the accumulated water accumulated inside the gas storage tank enters the inside of a sliding cavity through the water inlet hole, then the floater promotes the traveller and slides to the top, then the bottom of traveller is not at sealed inlet opening, ponding is discharged automatically then, later fall back to the initial position again under the action of gravity at the floater, then the traveller plays the effect of sealed apopore again, and then can in time discharge the inside ponding of air inflation mechanism, thereby play the effect of choke drainage to air inflation mechanism, the life of air charging equipment has been prolonged, promptly because the inside stopper ball of the inside water pressure promotion drainpipe of suction box pours into the inside of mixing chamber into, the inside gas of gas holder promotes the stopper ball in the blast pipe under its powerful pressure this moment, enter into the inside of mixing chamber in succession, finally discharge through the outlet pipe after the stirring of stirring wheel, and then be convenient for mix the dissolution with high-pressure air and the water of coming in the pump sending, improve the oxygen content in the rivers.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic structural view of an overall structure of a preferred embodiment of a water pump aerator for aquaculture according to the present invention;

FIG. 2 is a schematic view of the connection structure of the setting mechanism, the pumping mechanism, the inflating mechanism, the draining mechanism and the mixing mechanism shown in FIG. 1;

FIG. 3 is a schematic view of the connection between the placement mechanism and the pumping mechanism shown in FIG. 2;

FIG. 4 is a schematic view of the connection of the placement mechanism and the inflation mechanism of FIG. 2;

FIG. 5 is a schematic structural view of the mixing mechanism shown in FIG. 2;

FIG. 6 is an enlarged view of portion A of FIG. 3;

FIG. 7 is an enlarged view of the portion B shown in FIG. 4;

fig. 8 is an enlarged schematic view of the portion C shown in fig. 4.

In the figure: 1. a setting mechanism 11, a fixed box 12, a floating block 13, a fixed bolt 14, a driving motor 15, a belt pulley 16, a belt 17, a pumping box 18, an inflation box 2, a pumping mechanism 21, a pumping pipe 22, a first rotating shaft 23, a rotating disc 24, a rubber diaphragm 25, a first connecting rod 26, a water supply pipe 27, a baffle 28, a tension spring 3, an inflation mechanism 31, an air filter cap 32, an air inlet pipe 33, an air storage tank 34, a second rotating shaft 35, a cam 36, a second connecting rod 37, a piston 38, an air storage pipe 39, a stop 39a, a sliding rod 39b, a first spring 4, a drainage mechanism 41, a water inlet hole 42, a sliding cavity 43, a floating ball 44, an air vent hole 45, a sliding column 5, a mixing mechanism 51, a water outlet pipe 52, an air outlet pipe 53, a mixing chamber 54, a plug ball 55, a second spring 56, a mixing chamber 55, a water outlet pipe 45, a water inlet pipe, a water outlet pipe, a water outlet pipe, a water outlet, a water outlet pipe, a water outlet, a water outlet pipe, a water outlet, stirring wheel, 57, outlet pipe.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1-8, the pump aerator for cultivation according to the present invention comprises a setting mechanism 1, a pumping mechanism 2, an inflating mechanism 3, a draining mechanism 4 and a mixing mechanism 5, wherein the setting mechanism 1 for floating the whole device on the water surface and providing operation power for the internal mechanisms is arranged on the cultivation water surface, the pumping mechanism 2 for circulating the water flow in the cultivation pond is arranged inside the setting mechanism 1, the inflating mechanism 3 for gathering high pressure air is arranged at one side of the pumping mechanism 2, the inflating mechanism 3 is fixed inside the setting mechanism 1, the draining mechanism 4 for performing air blocking and water discharging actions on the inflating mechanism 3 is arranged inside the inflating mechanism 3, the mixing mechanism 5 for mixing the substances inside the pumping mechanism 2 and the inflating mechanism 3 is connected between the pumping mechanism 2 and the inflating mechanism 3, and the mixing mechanism 5 is arranged inside the mounting mechanism 1.

Specifically, settling mechanism 1 includes a fixed box 11, a floating block 12, a fixed bolt 13, a driving motor 14, a belt pulley 15, a belt 16, a water pumping box 17 and an inflation box 18, the bottom at both ends of fixed box 11 is fixed with one respectively the floating block 12, two one side of the floating block 12 departing from the fixed box 11 is fixed with two respectively the fixed bolt 13, the internally mounted of fixed box 11 is provided with the driving motor 14, the water pumping box 17 and the inflation box 18, the driving motor 14 is arranged at the middle part of the fixed box 11, the water pumping box 17 and the inflation box 18 are arranged at both sides of the driving motor 14, the water pumping box 17 and the one end of the inflation box 18 are respectively provided with one belt pulley 15, the belt 16 is wound between the belt pulleys 15, because the two sides of fixed box 11 are fixed with one hollow floating block 12 respectively, the fixing box 11 passes through the floating block 12 is settled on the surface of water the both sides of floating block 12 are equipped with respectively again and are convenient for fixedly the gim peg 13, inclosed the fixing box 11 has reduced the noise when inside power spare part moves, and has avoided moisture etc. to get into it inside, has prolonged the life of inside spare part, and then is convenient for float whole device and be fixed in on a certain waters, and inside power spare part has perfected the normal operating of inside different function mechanism.

Specifically, mechanism 2 draws water includes drinking-water pipe 21, first pivot 22, carousel 23, rubber diaphragm 24, first connecting rod 25, delivery pipe 26, baffle 27 and extension spring 28, is located draw-water tank 17 one end the middle part of belt pulley 15 is fixed with first pivot 22, the one end of first pivot 22 extend to the inside of draw-water tank 17 and be fixed with carousel 23, the bottom of carousel 23 is equipped with rubber diaphragm 24, rubber diaphragm 24 fixed connection in on the inner wall of draw-water tank 17, rubber diaphragm 24 with it has first connecting rod 25 to rotate between carousel 23, the bottom of draw-water tank 17 is equipped with draw-water pipe 21, draw-water pipe 21 communicate in the inside of draw-water tank 17, one side intercommunication of draw-water tank 17 has delivery pipe 26, draw-water pipe 21 with one is all rotated in the inside of delivery pipe 26 baffle 27, one side of baffle 27 is fixed with extension spring 28, one of them one end of extension spring 28 is fixed in on the inner wall of drinking-water pipe 21 and another one end of extension spring 28 is fixed in on the inner wall of delivery pipe 26, owing to at first start driving motor 14, driving motor 14 drives through belt 16 drive a plurality of belt pulley 15, then one of them belt pulley 15 drives first pivot 22, first pivot 22 causes the inside carousel 23 of suction box 17 rotates, then first connecting rod 25 drives rubber diaphragm 24 is reciprocal to be bloated, and then avoided rotating spare part and rivers direct contact through the setting of rubber diaphragm 24, avoided inside lubricating substance contaminated water source, guaranteed the quality of breeding pond water source, at this moment the delivery pipe 26 with in the drinking-water pipe 21 baffle 27 with the motion of extension spring 28 cooperation rubber diaphragm 24 produces the power of pumping, then, water flow enters the inside of the water pumping box 17 through the water pumping pipe 21 and is then pushed into the water delivery pipe 26, so that the water flow can flow circularly, and the requirements of later oxygen increasing operation are met.

Specifically, the inflation mechanism 3 includes an air filter cap 31, an air inlet pipe 32, an air storage tank 33, a second rotating shaft 34, a cam 35, a second connecting rod 36, a piston 37, an air storage pipe 38, a stopper 39, a sliding rod 39a and a first spring 39b, the bottom end of the inflation tank 18 is fixed with the air storage tank 33, the bottom end of the air storage tank 33 is fixed on the inner wall of the fixed tank 11, the middle portion of the belt pulley 15 located at one end of the inflation tank 18 is fixed with the second rotating shaft 34, the other end of the second rotating shaft 34 extends into the inflation tank 18 and is fixed with the cam 35, the bottom end of the cam 35 is provided with the piston 37, the piston 37 is slidably connected into the inflation tank 18, the second connecting rod 36 is rotatably arranged between the piston 37 and the cam 35, the bottom end of the piston 37 is provided with the air inlet pipe 32 and the air storage pipe 38, the bottom end of the air inlet pipe 32 is communicated with the inside of the inflation box 18, the top end of the air inlet pipe 32 extends to the top end of the fixed box 11, the air filter cap 31 is mounted at the top end of the air inlet pipe 32, the air storage tank 33 is communicated with the inflation box 18 through the air storage pipe 38, the air inlet pipe 32 and the air storage pipe 38 are respectively provided with one stopper 39, one end of each stopper 39 is fixed with the slide rod 39a, the slide rod 39a slides in the air inlet pipe 32, the side wall of the slide rod is wound with the first spring 39b, one end of the first spring 39b is fixed on the side wall of the stopper 39, the other end of the first spring 39b is fixed on the inner wall of the air inlet pipe 32, and the other belt pulley 15 drives the cam 35 in the inflation box 18 to rotate through the second rotating shaft 34, so that the cam 35 causes the piston 37 to do work repeatedly through the second connecting rod 36, the synchronous air inlet pipe 32 continuously and unidirectionally sucks air along with the sliding of the piston 37, the stop block 39 in the air storage pipe 38 discharges air unidirectionally, and finally the air in the air storage tank 33 is accumulated more and more, and the pressure is increased more and more, so that the air density is improved, and the oxygen increasing requirement of subsequent equipment is improved.

Specifically, the drainage mechanism 4 includes a water inlet 41, a sliding cavity 42, a floating ball 43, a vent hole 44 and a sliding column 45, the water inlet 41 and the sliding cavity 42 are disposed in the bottom end of the air storage tank 33, the water inlet 41 is communicated with the sliding cavity 42, the sliding column 45 and two floating balls 43 are disposed in the sliding cavity 42, the sliding column 45 is slidably connected in the sliding cavity 42, the vent hole 44 is disposed in the sliding column 45, so that accumulated water is easily accumulated in the air inflation mechanism 3 during long-time use, and the service life of air storage components is easily shortened in a high-pressure, high-temperature and high-humidity environment over time, in order to solve the above problems, the water inlet 41 is disposed in the bottom end of the air storage tank 33, the accumulated water accumulated in the air storage tank 33 enters the sliding cavity 42 through the water inlet 41, and the floating ball 43 pushes the sliding column 45 to slide towards the top end, the bottom end of the sliding column 45 is not used for sealing the water inlet hole 41, accumulated water is automatically discharged, then the floating ball 43 falls back to the initial position under the action of gravity, the sliding column 45 plays a role in sealing the water outlet hole 41, the accumulated water in the inflating mechanism 3 can be discharged in time, the inflating mechanism 3 is blocked and drained, and the service life of the inflating device is prolonged.

Specifically, the mixing mechanism 5 includes a drain pipe 51, an exhaust pipe 52, a mixing chamber 53, a ball 54, a second spring 55, a mixing wheel 56 and a water outlet pipe 57, the mixing chamber 53 is disposed in the fixed box 11, the mixing chamber 53 is communicated with the air storage tank 33 through the exhaust pipe 52, the mixing chamber 53 is communicated with the water pumping tank 17 through the drain pipe 51, the drain pipe 51 is provided with the ball 54 in the exhaust pipe 52, one end of the ball 54 is fixed with the second spring 55, the other end of the second spring 55 is fixed on the inner wall of the exhaust pipe 52, the mixing wheel 56 is rotated in the mixing chamber 53, the other end of the mixing chamber 53 is communicated with the water outlet pipe 57, one end of the water outlet pipe 57 extends to the outside of the fixed box 11, and the ball 54 in the drain pipe 51 is pushed by the water pressure in the water pumping tank 17 to be injected into the mixing chamber 53 Inside, at this time, the gas inside the gas storage tank 33 pushes the plug ball 54 inside the gas exhaust pipe 52 under the strong pressure thereof, enters the mixing chamber 53 in sequence, is finally mixed and discharged through the water outlet pipe 57 after being stirred by the stirring wheel 56, and is convenient for mixing and dissolving the high-pressure air and the pumped water, so as to improve the oxygen content in the water flow.

When the device is used, the two sides of the fixed box 11 are respectively fixed with the hollow floating block 12, the fixed box 11 is arranged on the water surface through the floating block 12, the two sides of the floating block 12 are respectively provided with the fixing bolts 13 convenient to fix, the closed fixed box 11 reduces the noise of internal power parts during operation, prevents moisture and the like from entering the inside of the fixed box, prolongs the service life of the internal parts, is further convenient for floating and fixing the whole device on a certain water area, and improves the normal operation of internal different functional mechanisms; the driving motor 14 is started firstly, the driving motor 14 drives the belt pulleys 15 through the belt 16, one belt pulley 15 drives the first rotating shaft 22, the first rotating shaft 22 causes the rotating disc 23 inside the water pumping box 17 to rotate, the first connecting rod 25 drives the rubber diaphragm 24 to reciprocate, the direct contact between rotating parts and water flow is avoided through the arrangement of the rubber diaphragm 24, the water source is prevented from being polluted by internal lubricating substances, the quality of the water source in the culture pond is ensured, at the moment, the water supply pipe 26, the baffle 27 and the tension spring 28 in the water pumping pipe 21 are matched with the movement of the rubber diaphragm 24 to generate pumping force, the water flow enters the water pumping box 17 through the water pumping pipe 21 and then is pushed into the water supply pipe 26, the water flow is convenient to circulate, and the later-period oxygen increasing operation requirements are facilitated; because another belt pulley 15 drives the cam 35 inside the air inflation box 18 to rotate through the second rotating shaft 34, the cam 35 causes the piston 37 to do work in a reciprocating manner through the second connecting rod 36, the synchronous air inlet pipe 32 can continuously and unidirectionally suck air along with the sliding of the piston 37, the stop block 39 inside the air storage pipe 38 discharges air unidirectionally, and finally, the more the air inside the air storage tank 33 is accumulated, the greater the pressure is, so that the air density is improved, and the oxygen increasing requirement of subsequent equipment is improved; because the inner part of the inflating mechanism 3 is easy to accumulate accumulated water in long-term use, and the service life of the gas storage parts is easy to reduce in a high-pressure, high-temperature and high-humidity environment as long as time passes, in order to solve the problems, the bottom end of the gas storage tank 33 is provided with the water inlet 41, the accumulated water accumulated in the gas storage tank 33 enters the inside of the sliding cavity 42 through the water inlet 41, the floating ball 43 pushes the sliding column 45 to slide towards the top end, the bottom end of the sliding column 45 is not at the position for sealing the water inlet 41, then the accumulated water is automatically discharged, and then the sliding column 45 falls back to the initial position under the action of gravity, so that the sliding column 45 plays a role in sealing the water outlet 41, and then the accumulated water in the inflating mechanism 3 can be discharged in time, thereby playing a role in blocking air and discharging water for the inflating mechanism 3, and prolonging the service life of the inflating device; because the water pressure in the pumping box 17 pushes the plug ball 54 in the drain pipe 51 to be injected into the mixing chamber 53, at this time, the gas in the gas storage tank 33 pushes the plug ball 54 in the exhaust pipe 52 under the strong pressure to enter the mixing chamber 53 in sequence, and finally is mixed and discharged through the water outlet pipe 57 after being stirred by the stirring wheel 56, so that the high-pressure air and the pumped water can be mixed and dissolved conveniently, and the oxygen content in the water flow is improved.

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

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides a breed and use water pump oxygen-increasing machine which characterized in that: the device comprises a placement mechanism (1), a water pumping mechanism (2), an inflating mechanism (3), a draining mechanism (4) and a mixing mechanism (5), wherein the placement mechanism (1) used for floating the whole device on the water surface and providing operation power for an internal mechanism is placed on the culture water surface, the water pumping mechanism (2) used for circulating water flow in a culture pond is arranged in the placement mechanism (1), the inflating mechanism (3) used for gathering high-pressure air is arranged on one side of the water pumping mechanism (2), the inflating mechanism (3) is fixed in the placement mechanism (1), the draining mechanism (4) used for performing air blocking and water draining effects on the inflating mechanism (3) is arranged in the inflating mechanism (3), and the mixing mechanism (5) used for mixing substances in the water pumping mechanism (2) and the inflating mechanism (3) is communicated between the water pumping mechanism (2) and the inflating mechanism (3) The mixing mechanism (5) is arranged inside the arranging mechanism (1);

the arrangement mechanism (1) comprises a fixed box (11), floating blocks (12), fixing bolts (13), a driving motor (14), a belt pulley (15), a belt (16), a water pumping box (17) and an inflation box (18), wherein the bottom parts of the two ends of the fixed box (11) are respectively fixed with one floating block (12), one side of each of the two floating blocks (12) departing from the fixed box (11) is respectively fixed with two fixing bolts (13), and the driving motor (14), the water pumping box (17) and the inflation box (18) are arranged in the fixed box (11);

the driving motor (14) is arranged in the middle of the fixed box (11), the water pumping box (17) and the inflating box (18) are arranged on two sides of the driving motor (14), one end of the water pumping box (17) and one end of the inflating box (18) are respectively provided with one belt pulley (15), and the belt (16) is wound among the belt pulleys (15);

the water pumping mechanism (2) comprises a water pumping pipe (21), a first rotating shaft (22), a rotary disc (23), a rubber diaphragm (24), a first connecting rod (25), a water delivery pipe (26), a baffle (27) and a tension spring (28), the middle part of the belt pulley (15) positioned at one end of the water pumping box (17) is fixed with the first rotating shaft (22), one end of the first rotating shaft (22) extends to the inside of the pumping box (17) and is fixed with the rotating disc (23), the bottom end of the rotary disc (23) is provided with the rubber diaphragm (24), the rubber diaphragm (24) is fixedly connected on the inner wall of the pumping box (17), the first connecting rod (25) rotates between the rubber diaphragm (24) and the rotary disc (23), the bottom end of the water pumping box (17) is provided with the water pumping pipe (21), and the water pumping pipe (21) is communicated with the inside of the water pumping box (17);

one side of the water pumping box (17) is communicated with the water conveying pipe (26), the baffles (27) are respectively arranged inside the water pumping pipe (21) and the water conveying pipe (26) in a rotating mode, the tension springs (28) are fixed to one sides of the baffles (27), one end of one tension spring (28) is fixed to the inner wall of the water pumping pipe (21), and one end of the other tension spring (28) is fixed to the inner wall of the water conveying pipe (26);

the inflation mechanism (3) comprises an air filter cap (31), an air inlet pipe (32), an air storage tank (33), a second rotating shaft (34), a cam (35), a second connecting rod (36), a piston (37), an air storage pipe (38), a stop block (39), a sliding rod (39 a) and a first spring (39 b), the bottom end of the inflation box (18) is fixed with the air storage tank (33), the bottom end of the air storage tank (33) is fixed on the inner wall of the fixed box (11), the middle part of the belt pulley (15) located at one end of the inflation box (18) is fixed with the second rotating shaft (34), the other end of the second rotating shaft (34) extends to the inside of the inflation box (18) and is fixed with the cam (35), the bottom end of the cam (35) is provided with the piston (37), and the piston (37) is connected to the inside of the inflation box (18) in a sliding manner, the second connecting rod (36) is rotatably arranged between the piston (37) and the cam (35), the air inlet pipe (32) and the air storage pipe (38) are arranged at the bottom end of the piston (37), the bottom end of the air inlet pipe (32) is communicated with the inside of the inflation box (18), and the top end of the air inlet pipe extends to the top end of the fixed box (11);

the air filter cap (31) is mounted at the top end of the air inlet pipe (32), the air storage tank (33) is communicated with the inflation box (18) through the air storage pipe (38), the air inlet pipe (32) and the air storage pipe (38) are respectively internally provided with one stopper (39), one end of each stopper (39) is fixedly provided with the sliding rod (39 a), the sliding rod (39 a) slides in the air inlet pipe (32), the side wall of the sliding rod is wound with the first spring (39 b), one end of the first spring (39 b) is fixed on the side wall of the stopper (39), and the other end of the first spring (39 b) is fixed on the inner wall of the air inlet pipe (32);

the drainage mechanism (4) comprises a water inlet hole (41), a sliding cavity (42), floating balls (43), vent holes (44) and a sliding column (45), the water inlet hole (41) and the sliding cavity (42) are arranged inside the bottom end of the air storage tank (33), the water inlet hole (41) is communicated with the sliding cavity (42), the sliding column (45) and the two floating balls (43) are arranged inside the sliding cavity (42), the sliding column (45) is connected inside the sliding cavity (42) in a sliding mode, and the vent holes (44) are arranged inside the sliding column (45);

the mixing mechanism (5) comprises a drain pipe (51), an exhaust pipe (52), a mixing chamber (53), a plug ball (54), a second spring (55), a stirring wheel (56) and a water outlet pipe (57), the mixing chamber (53) is arranged in the fixed box (11), the exhaust pipe (52) is communicated between the mixing chamber (53) and the air storage tank (33), the drain pipe (51) is communicated between the mixing chamber (53) and the water pumping box (17), the plug ball (54) is respectively arranged in the drain pipe (51) and the exhaust pipe (52), and the second spring (55) is fixed at one end of the plug ball (54);

the other end of the second spring (55) is fixed on the inner wall of the exhaust pipe (52), the stirring wheel (56) rotates in the mixing chamber (53), the other end of the mixing chamber (53) is communicated with the water outlet pipe (57), and one end of the water outlet pipe (57) extends to the outside of the fixed box (11).