CN205682202U - For increasing the oxygen-enriching mechanism of oxygen in water - Google Patents

Abstract

The utility model discloses a kind of oxygen-enriching mechanism for increasing oxygen in water, it includes kickboard, it is characterized in that: kickboard is provided with the first operating room and the second operating room, it is provided with piston plate in first operating room, piston plate is provided with piston rod, the upper end of piston rod is hinged with flywheel by a crank, the lower section of piston plate is surrounded with the inwall of the first operating room and is formed airtight solution cavity, a top board it is provided with in first operating room, airtight air cavity is formed between top board and piston plate, liquid outlet on solution cavity sidewall is connected by a connecting water pipe and the second operating room, sidewall corresponding to described air cavity is provided with air inlet, air inlet is provided with only supplied gas and enters the check valve of air cavity, the gas outlet of air cavity connects by connecting the top of trachea and the second operating room, the bottom of described second operating room is provided with gas-liquid mixed outlet.This utility model provides a kind of oxygen-enriching mechanism for increasing oxygen in water, and its oxygenation effect is good, and energy consumption is low.

Description

For increasing the oxygen-enriching mechanism of oxygen in water

Technical field

This utility model relates to the technical field of equipment used for aquiculture, and one is used for increasing oxygen in water specifically Oxygen-enriching mechanism.

Background technology

Cultivation industry is usually associated with high repayment rate and excessive risk, and its excessive risk is mainly due to molten in water in breeding process Solve that oxygen supply is not enough and the mortality of short time that causes and cause substantial amounts of economic loss, if can guarantee that the survival of cultivation Rate, then raiser will be brought considerable income.

Although having already in industry, oxygen pump skill of oxygen content in lasting guarantee water body is set in cultivation fish pond Art scheme, the oxygen pump structure of prior art mostly is on cursory one and arranges motor, driven by motor wheel rotation, from there through Impeller stirring water body, causes water body to become big with the contact surface of air, thus improves the content of oxygen in water.But this is existing Technology, its motor needs to drive water body rolling, and therefore load is big, and the energy consumption of motor is high, simultaneously because the cycle of cultivation mostly is 3 More than Yue, therefore its culture-cycle is long, the continuous work that motor is long-term, not only easily causes the fault of equipment but also motor stopping Rear maintenance will cause material culture anoxia and mortality not in time, although this namely exists the oxygen of prior art in industry Pump, but its cultivation yet suffers from one of high risk of paramount importance reason.

Summary of the invention

Technical problem to be solved in the utility model is: provide a kind of oxygen-enriching mechanism for increasing oxygen in water, Its oxygenation effect is good, and energy consumption is low.

Technical solution adopted in the utility model is: provide a kind of oxygen-enriching mechanism for increasing oxygen in water, it Including kickboard, it is characterised in that: kickboard is provided with the first operating room and the second operating room, is provided with the first work in the first operating room Making indoor cavity volume and be separated into bilevel piston plate, piston plate is provided with the piston for driving piston plate to move up and down Bar, the first operating room is provided with one with the driving motor of flywheel, and the upper end of piston rod is hinged with flywheel by a crank, work The lower section of seben is surrounded with the inwall of the first operating room and is formed airtight solution cavity, is positioned at the top of piston plate in the first operating room Being provided with a top board, form airtight air cavity between top board and piston plate, top board is provided with the through hole passed for piston rod, described molten Sidewall corresponding to sap cavity is provided with inlet, and inlet connects with one end of water inlet pipe, and the other end of water inlet pipe extends to water Below face, the liquid outlet on the sidewall of solution cavity is connected by a connecting water pipe and the second operating room, and described connecting water pipe position Part in the second operating room vertically extends to the top of nearly second operating room, on the sidewall corresponding to described air cavity Being provided with air inlet, air inlet is provided with only supplied gas and enters the check valve of air cavity, and the gas outlet of air cavity is by connecting trachea and the The top connection of two operating rooms, the bottom of described second operating room is provided with gas-liquid mixed outlet.

Described connecting water pipe is positioned at the mouth of pipe end of the second operating room and is provided with a fog-spray nozzle.

The one end connecting trachea penetrates to the second operating room, and described connection trachea is positioned at the length etc. of the second operating room 1/4 of length between two intersection points formed after the extended line of axis and the second chamber internal wall connecting trachea intersects.

After using above structure, the oxygen-enriching mechanism for increasing oxygen in water of the present utility model is compared with prior art Have the advantage that current and air to be extracted respectively and be sufficiently mixed to the second operating room, so that molten in water Solve oxygen and reach saturated.

Accompanying drawing explanation

Fig. 1 is the structural representation of the oxygen-enriching mechanism for increasing oxygen in water of the present utility model.

Wherein, 1, kickboard, the 2, first operating room, 2.1, solution cavity, 2.1.1, inlet, 2.1.2, liquid outlet, 2.2, gas Chamber, 2.2.1, air inlet, 2.2.2, gas outlet, the 3, second operating room, 4, piston plate, 5, piston rod, 6, flywheel, 7, drive electricity Machine, 8, crank, 9, top board, 10, water inlet pipe, 11, connecting water pipe, 12, connect trachea, 13, gas-liquid mixed outlet, 14, fog-spray nozzle, 15, plasma generator；

L₁Refer to that connecting trachea is positioned at the length of the second operating room；

L₂Refer to connect the extended line of axis of trachea and the second chamber internal wall intersect after between two intersection points being formed Length.

Detailed description of the invention

The invention will be further described with detailed description of the invention below in conjunction with the accompanying drawings.

The present invention provides a kind of oxygen-enriching mechanism for increasing oxygen in water, and it includes kickboard 1, it is characterised in that: floating Plate 1 is provided with the first operating room 2 and the second operating room 3, is provided with and is separated by the cavity volume in the first operating room 2 in the first operating room 2 Becoming bilevel piston plate 4, piston plate 4 is provided with the piston rod 5 for driving piston plate 4 to move up and down, the first operating room 2 On be provided with one with the driving motor 7 of flywheel 6, the upper end of piston rod 5 is hinged with flywheel 6 by a crank 8, piston plate 4 Lower section is surrounded with the inwall of the first operating room 2 and is formed airtight solution cavity 2.1, is positioned at the top of piston plate 4 in the first operating room 2 Being provided with a top board 9, form airtight air cavity 2.2 between top board 9 and piston plate 4, top board 9 was provided with for leading to that piston rod 5 passes Hole, the sidewall corresponding to described solution cavity 2.1 is provided with one end of inlet 2.1.1, inlet 2.1.1 and water inlet pipe 10 even Logical, the other end of water inlet pipe 10 extends to below the water surface, and the liquid outlet 2.1.2 on solution cavity 2.1 sidewall passes through a connecting water pipe 11 connect with the second operating room, and described connecting water pipe 11 is positioned at the part of the second operating room 3 and vertically extends to closely The top of the second operating room 3, the sidewall corresponding to described air cavity 2.2 is provided with air inlet 2.2.1, air inlet 2.2.1 and is provided with Only supplied gas enters the check valve of air cavity 2.2, and the gas outlet 2.2.2 of air cavity 2.2 is by connecting trachea 12 and the second operating room 3 Top connects, and the bottom of described second operating room 3 is provided with gas-liquid mixed outlet 13.

Described connecting water pipe 11 is positioned at the mouth of pipe end of the second operating room 3 and is provided with a fog-spray nozzle 14.

The one end connecting trachea 12 penetrates to the second operating room 3, and described connection trachea 12 is positioned at the second operating room 3 Length L₁Between two intersection points formed after crossing equal to the extended line of the axis of connection trachea 12 and the second operating room 3 inwall Length L₂1/4.

It is provided with plasma generator 15 in described second operating room 3.

Above this utility model preferred embodiment is described, but is not to be construed as limitations on claims. This utility model is not only limited to above example, and its concrete structure allows to change, all in this utility model demand for independence The various changes made in protection domain are all in protection domain of the present utility model.

Claims (3)

1., for increasing an oxygen-enriching mechanism for oxygen in water, it includes kickboard (1), it is characterised in that: kickboard (1) is provided with First operating room (2) and the second operating room (3), be provided with in the first operating room (2) and be separated into by the cavity volume in the first operating room (2) Bilevel piston plate (4), piston plate (4) is provided with the piston rod (5) for driving piston plate (4) to move up and down, and first Being provided with one with the driving motor (7) of flywheel (6) in operating room (2), the upper end of piston rod (5) is by a crank (8) and flies Wheel (6) is hinged, and the lower section of piston plate (4) and the inwall of the first operating room (2) surround and form airtight solution cavity (2.1), and first Be positioned at piston plate (4) in operating room (2) is arranged over a top board (9), is formed airtight between top board (9) and piston plate (4) Air cavity (2.2), top board (9) is provided with the through hole passed for piston rod (5), the sidewall corresponding to described solution cavity (2.1) sets Having inlet (2.1.1), inlet (2.1.1) to connect with one end of water inlet pipe (10), the other end of water inlet pipe (10) extends to Below the water surface, the liquid outlet (2.1.2) on solution cavity (2.1) sidewall is connected with the second operating room by a connecting water pipe (11), And the part that described connecting water pipe (11) is positioned at the second operating room (3) vertically extends to nearly second operating room (3) Top, the sidewall corresponding to described air cavity (2.2) is provided with air inlet (2.2.1), and air inlet (2.2.1) is provided with only supplied gas Entering the check valve of air cavity (2.2), the gas outlet (2.2.2) of air cavity (2.2) is by connecting trachea (12) and the second operating room (3) Top connection, the bottom of described second operating room (3) be provided with gas-liquid mixed outlet (13).

Oxygen-enriching mechanism for increasing oxygen in water the most according to claim 1, it is characterised in that: described connecting water pipe (11) mouth of pipe end being positioned at the second operating room (3) is provided with a fog-spray nozzle (14).

Oxygen-enriching mechanism for increasing oxygen in water the most according to claim 1, it is characterised in that: connect trachea (12) One end penetrate in the second operating room (3), described connection trachea (12) is positioned at length L of the second operating room (3)₁Equal to even Length L between two intersection points that the extended line of the axis of trachea (12) and the second operating room (3) inwall are formed after intersecting₂'s 1/4。