CN111264457A

CN111264457A - Aquatic product oxygenation system and oxygenation method

Info

Publication number: CN111264457A
Application number: CN202010197583.7A
Authority: CN
Inventors: 王美莹
Original assignee: 王美莹
Current assignee: Yangzhou Feng Feng Hi Tech Industry Investment Development Group Co Ltd
Priority date: 2020-03-19
Filing date: 2020-03-19
Publication date: 2020-06-12
Anticipated expiration: 2040-03-19
Also published as: CN111264457B

Abstract

The invention relates to an oxygenation system, in particular to an oxygenation system and an oxygenation method for aquatic products, which comprise mounting mechanisms, a length support I, a length support II, a moving support, a moving mechanism, a control mechanism, a lifting mechanism, an oxygenation mechanism, an oxygen pump and a motor V, wherein the length of a sliding track can be adjusted through the length support I and the length support II, and the two mounting mechanisms mount devices on aquatic product cylinders with different sizes; a motor V is started to drive the length support I and the length support II to move transversely, and the positions of the length support I and the length support II are adjusted; the control mechanism controls the motion mechanism to intermittently move, and the motion mechanism drives the motion bracket to intermittently slide on the sliding track; the lifting mechanism places the oxygenation mechanism in water, the oxygen pump pumps oxygen into the oxygenation mechanism through a pipeline, and the oxygenation mechanism enriches oxygen to the water.

Description

Aquatic product oxygenation system and oxygenation method

Technical Field

The invention relates to an oxygenation system, in particular to an oxygenation system and an oxygenation method for aquatic products.

Background

For example, publication No. CN209463159U A water circulation oxygenation system of a fish culture box is applied to the fish culture box and comprises a filtering system, a CB water generator and an oxygenation system, wherein the filtering system is connected with the CB water generator, the CB water generator is connected with the oxygenation system, and the CB water generator is connected with a torrent water sprayer; the fish culture box is composed of a fish culture box main body and an equipment control box, and the system is installed in the equipment control box. The filtering system, the CB water generator and the oxygenation system are all driven by a circulating main motor, and the CB water generator, the oxygenation system and a torrent water sprayer are communicated with the fish culture box main body through pipelines; the utility model discloses a during the shortcoming harmless being applicable to carry out oxygenation to water on a large scale.

Disclosure of Invention

The invention aims to provide an aquatic product oxygenation system and an aquatic product oxygenation method, which can evenly oxygenate water in a large range.

The purpose of the invention is realized by the following technical scheme:

an aquatic product oxygenation system and oxygenation method comprises two mounting mechanisms, a length support I, a length support II, a moving support, a moving mechanism, a control mechanism, a lifting mechanism, an oxygenation mechanism, an oxygen pump and a motor V, wherein the two mounting mechanisms are respectively connected with the length support I and the length support II, the motor V is fixedly connected to one mounting mechanism, the length support I and the length support II jointly form a sliding track, the moving support is slidably connected to the sliding track, the moving mechanism is fixedly connected to the moving support, two ends of the moving mechanism are respectively connected to the length support I and the length support II, the control mechanism is fixedly connected to the moving support and controls the moving mechanism to move intermittently, the lifting mechanism is fixedly connected to the moving support, and the oxygenation mechanism is fixedly connected to the lower end of the lifting mechanism, the moving support is fixedly connected with an oxygen pump, and the oxygen pump is connected with an oxygen increasing mechanism through a pipeline.

As further optimization of the technical scheme, the aquatic product oxygenation system comprises a support frame, a limiting column I, a support plate, a threaded cylinder, a threaded rod I, a limiting key, clamping frames, clamping plates and clamping screws, wherein one side of the support frame is rotatably connected with the limiting column I, the other side of the support frame is fixedly connected with the support plate, the support plate is rotatably connected with the threaded cylinder, two ends of the threaded cylinder are respectively connected with the threaded rod I through threads, the thread turning directions of the two threaded rods I are opposite, the outer ends of the two threaded rods I are respectively and fixedly connected with the clamping frames, the two clamping frames are respectively and rotatably connected with the clamping plates, and the two clamping plates are respectively and slidably connected to the two clamping frames.

As a further optimization of the technical scheme, the aquatic product oxygenation system comprises a length support I, two limiting columns II and a cross inserting shaft, wherein the two limiting columns II are fixedly connected to the length support I, the cross inserting shaft is fixedly connected to the two limiting columns II, the length support I is connected to the corresponding limiting columns I through threads, an output shaft of a motor V is in transmission connection with the limiting columns I corresponding to the length support I, the length support II comprises a length support II, spacing post III and cross jack, II sliding connection of carriage are on the spacing post I that corresponds, and two spacing posts of fixedly connected with are III on II carriages, all are provided with the cross jack on two spacing posts III, and two cross spigots insert respectively in two cross jacks, and spacing post II, cross spigots and spacing post III constitute the slip track jointly.

As further optimization of the technical scheme, the aquatic product oxygenation system comprises a moving support, wherein the moving support comprises a moving bottom plate I, sliding cylinders, a side plate I, a moving bottom plate II, a motor switch, a side plate II, a moving bottom plate III and a side plate III, the moving bottom plate I is fixedly connected with the two sliding cylinders, the two sliding cylinders are both connected onto a sliding track in a sliding mode, the lower end of the moving bottom plate I is fixedly connected with the two side plates I, the lower ends of the two side plates I are both fixedly connected onto the moving bottom plate II, the moving bottom plate II is provided with the motor switch, the lower end of the moving bottom plate II is fixedly connected with the two side plates II, the lower ends of the two side plates II are both fixedly connected onto the moving bottom plate III, and the lower.

As further optimization of the technical scheme, the aquatic product oxygenation system comprises a motor I, a winding drum I and a steel wire rope I, wherein the motor I is fixedly connected between two side plates I, two winding drums I are fixedly connected to an output shaft of the motor I, the steel wire rope I is wound on each of the two winding drums I, the two steel wire ropes I are fixedly connected to a sliding frame I and a sliding frame II respectively, and the motor I is connected with a motor switch.

As further optimization of the technical scheme, the aquatic product oxygenation system comprises a motor II, arc plates, arc grooves, a threaded rod II and a locking nut, wherein the motor II is fixedly connected between the two side plates II, the two arc plates are fixedly connected to an output shaft of the motor II, one arc plate is provided with the arc groove, the other arc plate is fixedly connected with the threaded rod II, the threaded rod II is slidably connected into the arc groove, the locking nut is connected to the threaded rod II through threads, and the two arc plates can extrude a motor switch.

As a further optimization of the technical scheme, the aquatic product oxygenation system comprises a lifting mechanism and a lifting mechanism, wherein the lifting mechanism comprises a motor III, two winding drums II, a steel wire rope II and a lifting bottom plate, the two winding drums II are fixedly connected to an output shaft of the motor III, the steel wire rope II is wound on each of the two winding drums II, the lower ends of the two steel wire ropes II are fixedly connected to the lifting bottom plate, and the motor III is fixedly connected between the two side plates III.

As a further optimization of the technical scheme, the aquatic product oxygenation system comprises an oxygenation mechanism, a motor IV, a limiting disc, an oxygenation cylinder, a rotating plate, an oxygen outlet pipeline and an oxygen inlet pipeline, wherein the oxygenation mechanism comprises a waterproof box, the motor IV, the limiting disc, the oxygenation cylinder, the rotating plate, the oxygen outlet pipeline and the oxygen inlet pipeline, the waterproof box is fixedly connected to a lifting bottom plate, the motor IV is fixedly connected to the inside of the waterproof box, the limiting disc is fixedly connected to the middle of an output shaft of the motor IV, the lower end of the output shaft of the motor IV is fixedly connected to the oxygenation cylinder, the rotating plate is rotatably connected between the oxygenation cylinder and the limiting disc, the oxygen inlet pipeline is fixedly connected to the rotating plate, the oxygenation cylinder is fixedly connected with a plurality of oxygen outlet pipelines.

An aquatic product oxygenation method, comprising the steps of:

the method comprises the following steps: the length of the sliding track is adjusted through the length support I and the length support II, and the two mounting mechanisms mount the device on aquatic tanks with different sizes;

step two: a motor V is started to drive the length support I and the length support II to move transversely, and the positions of the length support I and the length support II are adjusted;

step three: the control mechanism controls the motion mechanism to intermittently move, and the motion mechanism drives the motion bracket to intermittently slide on the sliding track;

step four: the lifting mechanism places the oxygenation mechanism in water, the oxygen pump pumps oxygen into the oxygenation mechanism through a pipeline, and the oxygenation mechanism enriches oxygen to the water.

The aquatic product oxygenation system and the oxygenation method have the beneficial effects that:

according to the aquatic product oxygenation system and the oxygenation method, the length of the sliding track can be adjusted through the length support I and the length support II, and the two mounting mechanisms mount the device on aquatic product tanks with different sizes; a motor V is started to drive the length support I and the length support II to move transversely, and the positions of the length support I and the length support II are adjusted; the control mechanism controls the motion mechanism to intermittently move, and the motion mechanism drives the motion bracket to intermittently slide on the sliding track; the lifting mechanism places the oxygenation mechanism in water, the oxygen pump pumps oxygen into the oxygenation mechanism through a pipeline, and the oxygenation mechanism enriches oxygen to the water.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

In the description of the present invention, it should be noted that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "top", "bottom", "inner", "outer" and "upright", etc., indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected, directly or indirectly connected through an intermediate medium, and may be a communication between two members. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In addition, in the description of the present invention, the meaning of "a plurality", and "a plurality" is two or more unless otherwise specified.

FIG. 1 is a schematic diagram of the overall configuration of the aquatic oxygenation system of the present invention;

FIG. 2 is a schematic structural view of the mounting mechanism of the present invention;

FIG. 3 is a schematic structural view of a length bracket I of the present invention;

FIG. 4 is a schematic structural view of a length support II of the present invention;

FIG. 5 is a schematic view of the kinematic mount of the present invention;

FIG. 6 is a schematic view of the motion mechanism of the present invention;

FIG. 7 is a schematic view of the control mechanism of the present invention;

FIG. 8 is a schematic view of the lift mechanism of the present invention;

FIG. 9 is a schematic structural view of the oxygen increasing mechanism of the present invention;

fig. 10 is a schematic structural view of a cross section of the oxygen increasing mechanism of the invention.

In the figure: an installation mechanism 1; a support frame 101; a limiting column I102; a support plate 103; a threaded barrel 104; a threaded rod I105; a limit key 106; a clamping frame 107; a clamping plate 108; a clamping screw 109; a length support I2; a sliding frame I201; a limiting column II 202; a cross plug shaft 203; a length support II 3; a sliding frame II 301; a limiting column III 302; a cross jack 303; a motion bracket 4; a motion base plate I401; a slide cylinder 402; a side plate I403; a moving base plate II 404; a motor switch 405; a side plate II 406; a moving base plate III 407; a side plate III 408; a movement mechanism 5; a motor I501; a reel I502; a steel wire rope I503; a control mechanism 6; a motor II 601; an arc plate 602; an arc groove 603; a threaded rod II 604; a lock nut 605; a lifting mechanism 7; a motor III 701; a reel II 702; a steel wire rope II 703; a lifting floor 704; an oxygenation mechanism 8; a waterproof case 801; a motor IV 802; a limiting disc 803; an oxygenation cylinder 804; a rotating plate 805; an oxygen outlet conduit 806; an oxygen inlet pipe 807; an oxygen pump 9; an electric machine V10.

Detailed Description

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

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1-10, and an aquatic product oxygenation system comprises two mounting mechanisms 1, a length support i 2, a length support ii 3, two moving supports 4, two moving mechanisms 5, a control mechanism 6, a lifting mechanism 7, an oxygenation mechanism 8, an oxygen pump 9 and a motor v 10, wherein the two mounting mechanisms 1 are respectively connected with the length support i 2 and the length support ii 3, one mounting mechanism 1 is fixedly connected with the motor v 10, the length support i 2 and the length support ii 3 jointly form a sliding track, the sliding track is slidably connected with the moving support 4, the moving support 4 is fixedly connected with the moving mechanism 5, two ends of the moving mechanism 5 are respectively connected with the length support i 2 and the length support ii 3, the moving support 4 is fixedly connected with the control mechanism 6, and the control mechanism 6 controls the moving mechanism 5 to move intermittently, the moving support 4 is fixedly connected with a lifting mechanism 7, the lower end of the lifting mechanism 7 is fixedly connected with an oxygenation mechanism 8, the moving support 4 is fixedly connected with an oxygen pump 9, and the oxygen pump 9 is connected with the oxygenation mechanism 8 through a pipeline.

The second embodiment is as follows:

this embodiment will be described with reference to fig. 1 to 10, which further illustrate the first embodiment, installation mechanism 1 includes support frame 101, spacing post I102, backup pad 103, a screw thread section of thick bamboo 104, threaded rod I105, spacing key 106, clamping frame 107, clamping plate 108 and clamping screw 109, one side of support frame 101 is rotated and is connected with spacing post I102, the opposite side fixedly connected with backup pad 103 of support frame 101, it is connected with a screw thread section of thick bamboo 104 to rotate on the backup pad 103, there is I105 of threaded rod at the both ends of a screw thread section of thick bamboo 104 all through threaded connection, the screw thread of two I105 of threaded rod turns to opposite, the equal fixedly connected with clamping frame 107 in two I105's of threaded rod outer end, all there is clamping screw 109 through threaded connection on two clamping frames 107, all rotate on two clamping screw 109 and be connected with clamping plate 108, two clamping plate 108 are sliding connection respectively on.

The third concrete implementation mode:

the following describes the present embodiment with reference to fig. 1 to 10, which further describes the second embodiment, the length support i 2 includes a sliding frame i 201, two limiting posts ii 202 and a cross inserting shaft 203, two limiting posts ii 202 are fixedly connected to the sliding frame i 201, the cross inserting shaft 203 is fixedly connected to each of the two limiting posts ii 202, the sliding frame i 201 is connected to the corresponding limiting post i 102 through a screw thread, an output shaft of the motor v 10 is in transmission connection with the limiting post i 102 corresponding to the sliding frame i 201, the sliding frame i 201 is slidably connected to the corresponding support frame 101, the length support ii 3 includes a sliding frame ii 301, two limiting posts iii 302 and a cross inserting hole 303, the sliding frame ii 301 is slidably connected to the corresponding limiting post i 102, the sliding frame ii 301 is fixedly connected to the two limiting posts iii 302, the two limiting posts iii 302 are both provided with the cross inserting holes 303, the two cross inserting shafts 203 are respectively inserted into the two cross inserting holes 303, the limiting column II 202, the cross inserting shaft 203 and the limiting column III 302 form a sliding track together.

The fourth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1 to 10, and the present embodiment further describes an embodiment, where the moving bracket 4 includes a moving bottom plate i 401, a sliding cylinder 402, a side plate i 403, a moving bottom plate ii 404, a motor switch 405, a side plate ii 406, a moving bottom plate iii 407, and a side plate iii 408, two sliding cylinders 402 are fixedly connected to the moving bottom plate i 401, two sliding cylinders 402 are both slidably connected to a sliding rail, two side plates i 403 are fixedly connected to the lower end of the moving bottom plate i 401, the lower ends of the two side plates i 403 are both fixedly connected to the moving bottom plate ii 404, the motor switch 405 is disposed on the moving bottom plate ii 404, two side plates ii 406 are fixedly connected to the lower end of the moving bottom plate ii 404, the lower ends of the two side plates ii 406 are both fixedly connected to the moving bottom plate iii 407, and two side plates iii 408 are fixedly connected.

The fifth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1 to 10, and the fourth embodiment is further described in the present embodiment, the moving mechanism 5 includes a motor i 501, a reel i 502, and a steel wire rope i 503, the motor i 501 is fixedly connected between two side plates i 403, two reels i 502 are fixedly connected to an output shaft of the motor i 501, the steel wire ropes i 503 are wound on the two reels i 502, the two steel wire ropes i 503 are respectively fixedly connected to a carriage i 201 and a carriage ii 301, and the motor i 501 is connected to a motor switch 405.

The sixth specific implementation mode:

the present embodiment is described below with reference to fig. 1 to 10, and the fifth embodiment is further described in the present embodiment, where the control mechanism 6 includes a motor ii 601, an arc plate 602, an arc groove 603, a threaded rod ii 604, and a lock nut 605, the motor ii 601 is fixedly connected between two side plates ii 406, two arc plates 602 are fixedly connected to an output shaft of the motor ii 601, one of the arc plates 602 is provided with the arc groove 603, the other arc plate 602 is fixedly connected to the threaded rod ii 604, the threaded rod ii 604 is slidably connected in the arc groove 603, the threaded rod ii 604 is connected to the lock nut 605 through a thread, and both the two arc plates 602 can extrude the motor switch 405.

The seventh embodiment:

the following describes the present embodiment with reference to fig. 1 to 10, and the sixth embodiment is further described in the present embodiment, where the lifting mechanism 7 includes a motor iii 701, a winding drum ii 702, a steel wire rope ii 703 and a lifting bottom plate 704, two winding drums ii 702 are fixedly connected to an output shaft of the motor iii 701, the steel wire rope ii 703 is wound on each of the two winding drums ii 702, lower ends of the two steel wire ropes ii 703 are fixedly connected to the lifting bottom plate 704, and the motor iii 701 is fixedly connected between the two side plates iii 408.

The specific implementation mode is eight:

the following describes the present embodiment with reference to fig. 1 to 10, and the seventh embodiment is further described in the present embodiment, where the oxygen increasing mechanism 8 includes a waterproof box 801, a motor iv 802, a limiting disc 803, an oxygen increasing cylinder 804, a rotating plate 805, an oxygen outlet pipe 806 and an oxygen inlet pipe 807, the waterproof box 801 is fixedly connected to the lifting bottom plate 704, the motor iv 802 is fixedly connected to the waterproof box 801, the limiting disc 803 is fixedly connected to the middle of an output shaft of the motor iv 802, the lower end of the output shaft of the motor iv 802 is fixedly connected to the oxygen increasing cylinder 804, the rotating plate 805 is rotatably connected between the oxygen increasing cylinder 804 and the limiting disc 803, the oxygen inlet pipe 807 is fixedly connected to the rotating plate 805, the oxygen increasing cylinder 804 is fixedly connected to a plurality of oxygen outlet pipes 806, the oxygen inlet pipe 807 is connected to the oxygen pump 9 through a pipe, and the oxygen pump 9 is fixedly connected to the moving.

An aquatic product oxygen increasing and increasing method, comprising the following steps:

the method comprises the following steps: the length of the sliding track is adjusted through the length support I2 and the length support II 3, and the two installation mechanisms 1 are used for installing the device on aquatic tanks with different sizes;

step two: a motor V10 starts to drive the length support I2 and the length support II 3 to move transversely, and the positions of the length support I2 and the length support II 3 are adjusted;

step three: the control mechanism 6 controls the movement mechanism 5 to intermittently move, and the movement mechanism 5 drives the movement support 4 to intermittently slide on the sliding track;

step four: the lifting mechanism 7 places the oxygenation mechanism 8 in water, the oxygen pump 9 pumps oxygen into the oxygenation mechanism 8 through a pipeline, and the oxygenation mechanism 8 enriches oxygen to the water.

The invention relates to an aquatic product oxygenation system and an oxygenation method, which have the working principle that:

when the device is used, the threaded cylinder 104 is rotated, two ends of the threaded cylinder 104 are both connected with the threaded rods I105 through threads, the thread turning directions of the two threaded rods I105 are opposite, the two threaded rods I105 are driven to be close to or away from each other through the threads when the threaded cylinder 104 rotates, the width of the device is adjusted, the clamping screw 109 is rotated, the clamping screw 109 pushes the clamping frame 107 and the clamping plate 108 to be close to or away from each other through the threads, when the clamping frame 107 and the clamping plate 108 are close to each other, the outer walls of aquatic jars of different sizes are clamped, and the two mounting mechanisms 1 are used for mounting the device on aquatic jars of different sizes; the cross plug shaft 203 slides in the cross plug hole 303, the length of a sliding track formed by the length support I2 and the length support II 3 is adjusted, and more use requirements are met; starting a motor V10, starting an output shaft of the motor V10 to rotate, driving a corresponding limiting column I102 to rotate by the output shaft of the motor V10, connecting a sliding frame I201 to the corresponding limiting column I102 through threads, connecting the output shaft of the motor V10 with the limiting column I102 corresponding to the sliding frame I201 in a transmission manner, pushing the sliding frame I201 to slide on a supporting frame 101 through the threads by the limiting column I102, driving a length support I2 and a length support II 3 to move transversely, and adjusting the positions of the length support I2 and the length support II 3; starting the motor II 601, driving the two arc plates 602 to rotate by an output shaft of the motor II 601, adjusting the mutual dislocation distance between the two arc plates 602, and adjusting and locking the mutual dislocation distance between the two arc plates 602 through the arc groove 603, the threaded rod II 604 and the locking nut 605; the two arc plates 602 can extrude the motor switch 405, when the two arc plates 602 move to be in contact with the motor switch 405, the motor switch 405 controls the motor I501 to start, the motor I501 can rotate forwards and backwards, the output shaft of the motor I501 drives the two drums I502 to rotate, and the two drums I502 complete the intermittent sliding of the moving support 4 on the sliding track through the retraction and release of the steel wire rope I503; because the length of the sliding track can be adjusted, in order to adapt to the change of the length of the device, the movement time of the motor I501 can be adjusted by adjusting the mutual staggered distance between the two arc plates 602, and further the distance for driving the movement bracket 4 to move when the motor I501 moves each time is adjusted; starting the motor III 701, starting the output shaft of the motor III 701 to rotate, driving the winding drum II 702 to rotate by the output shaft of the motor III 701, discharging the steel wire rope II 703 by the winding drum II 702, sinking the lifting bottom plate 704 into aquaculture water, driving the oxygenation mechanism 8 to sink into the aquaculture water by the lifting bottom plate 704, and enabling the oxygenation mechanism 8 to move up, down, left, right, front and back to oxygenate water uniformly in a large range; start oxygen pump 9 and motor IV 802, oxygen pump 9 can squeeze into oxygenation section of thick bamboo 804 with air or oxygen in, motor IV 802 can drive oxygenation section of thick bamboo 804 and rotate, as shown in fig. 1, go into oxygen pipeline 807 and oxygen pump 9 and pass through the pipe connection, the pipeline can set up different length according to the user demand, the pipeline can be fixed connection on motor IV 802, prevent that the pipeline from rotating together, elevating system 7 places oxygenation mechanism 8 in water, oxygen pump 9 squeezes oxygen into oxygenation mechanism 8 in through the pipeline, oxygenation mechanism 8 carries out the oxygenation to water, a plurality of oxygen pipelines 806 have increased oxygenation scope of oxygenation mechanism 8.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides an aquatic products oxygenation system, includes installation mechanism (1), length support I (2), length support II (3), motion support (4), motion (5), control mechanism (6), elevating system (7), oxygenation mechanism (8), oxygen pump (9) and motor V (10), its characterized in that: the two installation mechanisms (1) are arranged, the two installation mechanisms (1) are respectively connected with a length support I (2) and a length support II (3), one installation mechanism (1) is fixedly connected with a motor V (10), the length support I (2) and the length support II (3) jointly form a sliding track, the sliding track is connected with a moving support (4) in a sliding manner, the moving support (4) is fixedly connected with a moving mechanism (5), two ends of the moving mechanism (5) are respectively connected onto the length support I (2) and the length support II (3), the moving support (4) is fixedly connected with a control mechanism (6), the control mechanism (6) controls the moving mechanism (5) to move intermittently, the moving support (4) is fixedly connected with a lifting mechanism (7), and the lower end of the lifting mechanism (7) is fixedly connected with an oxygen increasing mechanism (8), an oxygen pump (9) is fixedly connected to the moving support (4), and the oxygen pump (9) is connected with the oxygenation mechanism (8) through a pipeline.

2. The aquatic product oxygenation system of claim 1, wherein: the mounting mechanism (1) comprises a support frame (101), a limiting column I (102), a support plate (103), a threaded cylinder (104), a threaded rod I (105), a limiting key (106), a clamping frame (107), a clamping plate (108) and a clamping screw (109), one side of support frame (101) is rotated and is connected with spacing post I (102), opposite side fixedly connected with backup pad (103) of support frame (101), it is connected with screw thread section of thick bamboo (104) to rotate on backup pad (103), the both ends of screw thread section of thick bamboo (104) all have threaded rod I (105) through threaded connection, the screw thread of two threaded rod I (105) is turned round to opposite, the equal fixedly connected with clamping frame (107) in outer end of two threaded rod I (105), all there are clamping screw (109) through threaded connection on two clamping frame (107), all rotate on two clamping screw (109) and be connected with clamping plate (108), two clamping plate (108) sliding connection respectively are on two clamping frame (107).

3. The aquatic product oxygenation system of claim 2, wherein: the length support I (2) comprises a sliding frame I (201), two limiting columns II (202) and a cross inserting shaft (203), two limiting columns II (202) are fixedly connected to the sliding frame I (201), the cross inserting shaft (203) is fixedly connected to the two limiting columns II (202), the sliding frame I (201) is connected to the corresponding limiting columns I (102) through threads, an output shaft of a motor V (10) is in transmission connection with the limiting columns I (102) corresponding to the sliding frame I (201), the sliding frame I (201) is in sliding connection with the corresponding support frames (101), the length support II (3) comprises a sliding frame II (301), limiting columns III (302) and cross inserting holes (303), the sliding frame II (301) is in sliding connection with the corresponding limiting columns I (102), the two limiting columns III (302) are fixedly connected to the sliding frame II (301), the cross inserting holes (303) are formed in the two limiting columns III (302), two cross spigots (203) insert respectively in two cross jacks (303), and spacing post II (202), cross spigots (203) and spacing post III (302) constitute the slip track jointly.

4. An aquatic product oxygenation system according to claim 3, characterised in that: the moving bracket (4) comprises a moving bottom plate I (401), a sliding cylinder (402), a side plate I (403), a moving bottom plate II (404), a motor switch (405), a side plate II (406), a moving bottom plate III (407) and a side plate III (408), two sliding cylinders (402) of fixedly connected with are gone up to motion bottom plate I (401), the equal sliding connection of two sliding cylinders (402) is on the slip track, two curb plates I (403) of the lower extreme fixedly connected with of motion bottom plate I (401), the equal fixed connection of the lower extreme of two curb plates I (403) is on motion bottom plate II (404), be provided with motor switch (405) on motion bottom plate II (404), two curb plates II (406) of the lower extreme fixedly connected with of motion bottom plate II (404), the equal fixed connection of the lower extreme of two curb plates II (406) is on motion bottom plate III (407), two curb plates III (408) of the lower extreme fixedly connected with of motion bottom plate III (407).

5. The aquatic product oxygenation system of claim 4, wherein: motion (5) are including motor I (501), reel I (502) and wire rope I (503), motor I (501) fixed connection is between two curb plates I (403), two reels I (502) of fixedly connected with on the output shaft of motor I (501), all twine wire rope I (503) on two reels I (502), two wire rope I (503) fixed connection respectively are on carriage I (201) and carriage II (301), motor I (501) and motor switch (405) are connected.

6. The aquatic product oxygenation system of claim 5, wherein: control mechanism (6) are including motor II (601), circular arc board (602), circular arc groove (603), threaded rod II (604) and lock nut (605), motor II (601) fixed connection is between two curb plates II (406), two circular arc boards (602) of fixedly connected with on the output shaft of motor II (601), be provided with circular arc groove (603) on one of them circular arc board (602), fixedly connected with threaded rod II (604) on another circular arc board (602), threaded rod II (604) sliding connection is in circular arc groove (603), there is lock nut (605) through threaded connection on threaded rod II (604), two circular arc boards (602) all can extrude motor switch (405).

7. The aquatic product oxygenation system of claim 6, wherein: elevating system (7) are including motor III (701), reel II (702), wire rope II (703) and lifting bottom plate (704), two reels II (702) of fixedly connected with on the output shaft of motor III (701), and two reels II (702) are gone up and are all twined wire rope II (703), and the equal fixed connection of lower extreme of two wire rope II (703) is on lifting bottom plate (704), and motor III (701) fixed connection is between two curb plates III (408).

8. The aquatic product oxygenation system of claim 7, wherein: the oxygenation mechanism (8) comprises a waterproof box (801), a motor IV (802), a limiting disc (803), an oxygenation cylinder (804), a rotating plate (805), an oxygen outlet pipeline (806) and an oxygen inlet pipeline (807), waterproof case (801) fixed connection is on lifting bottom plate (704), fixedly connected with motor IV (802) in waterproof case (801), the spacing dish of middle part fixedly connected with (803) of motor IV (802) output shaft, the lower extreme fixed connection of motor IV (802) output shaft is in oxygenation section of thick bamboo (804), it is connected with rotor plate (805) to rotate between oxygenation section of thick bamboo (804) and spacing dish (803), fixedly connected with income oxygen pipeline (807) on rotor plate (805), a plurality of oxygen pipeline (806) of fixedly connected with on oxygenation section of thick bamboo (804), it passes through the pipe connection to go into oxygen pipeline (807) and oxygen pump (9), oxygen pump (9) fixed connection is on motion bottom plate III (407).

9. The method for increasing oxygen in aquatic products according to claim 8, wherein: the method comprises the following steps:

the method comprises the following steps: the length of the sliding track is adjusted through a length support I (2) and a length support II (3), and the two mounting mechanisms (1) mount the device on aquatic tanks with different sizes;

step two: a motor V (10) is started to drive the length support I (2) and the length support II (3) to move transversely, and the positions of the length support I (2) and the length support II (3) are adjusted;

step three: the control mechanism (6) controls the movement mechanism (5) to intermittently move, and the movement mechanism (5) drives the movement bracket (4) to intermittently slide on the sliding track;

step four: the lifting mechanism (7) places the oxygenation mechanism (8) in water, the oxygen pump (9) pumps oxygen into the oxygenation mechanism (8) through a pipeline, and the oxygenation mechanism (8) enriches oxygen to the water.