CN108935280B

CN108935280B - Aquaculture case convenient to categorised placing and get fast and put

Info

Publication number: CN108935280B
Application number: CN201811121122.0A
Authority: CN
Inventors: 许勉生
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-09-26
Filing date: 2018-09-26
Publication date: 2021-06-22
Anticipated expiration: 2038-09-26
Also published as: CN108935280A

Abstract

The invention relates to an aquaculture box, in particular to an aquaculture box convenient for classified placement and quick taking and placing. The technical problem to be solved is as follows: the utility model provides an aquaculture case that is convenient for classify and place and get fast that can be convenient for carry, can prevent artifical arm ache. The technical scheme is as follows: an aquaculture box convenient for classified placement and quick taking and placing comprises a bottom plate, a mounting frame, a glass box, a first bearing seat, a first guide rail, a first guide sleeve, a supporting plate, a first extension rod and the like; the left and right sides at bottom plate top all is connected with the mounting bracket, is connected with the glass case between the top of two mounting brackets. The control device can be used for conveniently taking and placing the aquaculture box in the glass box manually, the oxygen supply device can supply oxygen to the aquatic products in the aquaculture box, so that the aquatic products in the aquaculture box can be prevented from being anoxic and dead, the baffle can prevent the aquatic products in the aquaculture box from jumping out of the aquaculture box, the pressing block can move up and down to fix the first rotating shaft, and the second crank can be prevented from rotating automatically.

Description

Aquaculture case convenient to categorised placing and get fast and put

Technical Field

The invention relates to an aquaculture box, in particular to an aquaculture box convenient for classified placement and quick taking and placing.

Background

Aquaculture breeds under artificial control, breed and the production activity of results aquatic animals and plants, generally include the overall process of following the seed and fostering the aquatic products under the artificial feeding management, and present aquaculture generally is artifical and places aquatic products in great aquaculture case and breed, and aquaculture case stacks mostly to aquaculture together, when needs watch the aquatic products of aquaculture incasement, just need the manual work to carry aquaculture case, because aquaculture case is great, and there are water and aquatic products in the aquaculture case, so the weight of aquaculture case is great, thereby inconvenient manual work is carried, and make artifical arm ache easily.

Disclosure of Invention

In order to overcome the defects that the aquaculture box is heavy, so that the aquaculture box is inconvenient to carry manually and easy to cause the pain of the manual arms, the technical problem to be solved is as follows: the utility model provides an aquaculture case that is convenient for classify and place and get fast that can be convenient for carry, can prevent artifical arm ache.

The technical scheme is as follows: an aquaculture box convenient for classified placement and quick taking and placing comprises a bottom plate, a mounting frame, a glass box, a first bearing seat, a first guide rail, a first guide sleeve, a supporting plate, a first extension rod, a supporting rod, a placing frame, an aquaculture box, a control device, a cover plate, a sliding plate, an L-shaped frame, a second guide rail and a second guide sleeve, wherein the mounting frame is connected to the left side and the right side of the top of the bottom plate, the glass box is connected between the tops of the two mounting frames, the first bearing seat is embedded in the middle of the bottom plate, the first guide rail is connected in the first bearing seat, a first through hole is formed in the middle of the bottom of the glass box, the top end of the first guide rail penetrates through the first through hole, the first guide sleeve is arranged at the lower part of the first guide rail, the supporting plate is connected to the left side surface of the first guide sleeve, the first extension rod is connected to the front side and the rear side, the even spaced a plurality of racks that are connected with in both sides around the left surface in the glass incasement, the even spaced a plurality of racks that are connected with in both sides around the right flank in the glass incasement, placed between the top of two racks around, the right side at first guide pin bushing top is connected with controls the device, the top of glass case is connected with the apron, open at the middle part of apron has the second through-hole, the apron top of both sides all is connected with L shape frame about the second through-hole, the medial surface of two L shape frames all is connected with the second guide rail, be equipped with the second guide pin bushing on the second guide rail, be connected with the sliding plate between two second guide pins, open at the middle part of sliding plate leading flank has the control.

Further, the control device comprises a connecting plate, a second bearing block, a first rotating rod, a first crank, a first belt pulley, a first flat belt, a connecting rod, a third bearing block, a second rotating rod, a gear, a connecting block, a first rotating shaft, a second crank, a second belt pulley, a second flat belt, a fourth bearing block, an L-shaped block, a slide rail, a slide block, a second extension rod and a rack, wherein the upper part of the right side surface of the glass box is connected with the connecting plate, the right part of the connecting plate is embedded with the second bearing block, the second bearing block is connected with the first rotating rod, the bottom end of the first rotating rod is connected with the first crank, the top end of the first rotating rod and the upper part of the first guide rail are both connected with the first belt pulley, the first flat belt is wound between the two first belt pulleys, the top of a cover plate on the right side of the right L-shaped frame on the right side is connected with the connecting rod, the left end of second bull stick is connected with the gear, the left side of connecting plate bottom is connected with the connecting block, the right flank rotary type of connecting block is connected with first pivot, the right-hand member of first pivot is connected with the second crank, the middle part of first pivot all is connected with the second belt pulley with the right-hand member of second bull stick, around there being the flat belt of second between two second belt pulleys, fourth bearing is installed at the top of first guide pin bushing, the right flank of fourth bearing is connected with the L-shaped piece, the top of L-shaped piece is connected with the slide rail, be equipped with the slider on the slide rail, be connected with the second extension rod between the leading flank of slider and the left surface of connecting rod, the right flank of slide rail is connected with the rack.

Further, still including the apparatus of oxygen supply, the apparatus of oxygen supply is including the fixed block, the air pump, the supporting shoe, trachea and jet head, the left bottom plate top of left side mounting bracket is connected with the fixed block, the air pump is installed at the top of fixed block, the bottom left and right sides in the glass case all is connected with the supporting shoe, be connected with the trachea between the top of two supporting shoes, the even spaced a plurality of jet heads that are connected with in tracheal top, the lower part of glass case left surface is opened has the third through-hole, the third through-hole is located the downside of rack, the third through-hole is passed to tracheal left end, tracheal left end is connected.

Further, the device comprises a nut, a screw and a pressing block, wherein the nut is connected to the right side of the connecting block on the lower side of the first rotating shaft, the screw is arranged in the nut, and the pressing block is connected to the top end of the screw.

Further, still including installation piece, second pivot, baffle and position sleeve, the front side of breeding the roof portion is connected with the installation piece, and the rotation type is connected with the second pivot on the installation piece, is connected with the baffle in the second pivot, and the even spaced division in top of baffle has a plurality of fourth through-holes, and both sides all are connected with the position sleeve around breeding the bottom of the case portion, and two racks are located between two position sleeves.

When needs remove breed the case, artifical back removal sliding plate earlier, artifical rethread controlling device makes the layer board rotate through first guide pin bushing afterwards, the layer board rotates and makes the die-pin rotate through first extension rod, after the die-pin rotates to be located the below of breeding the case, artifical messenger die-pin rebound through controlling device afterwards, die-pin rebound drives breeds the case rebound, after breeding case rebound to suitable, manual operation device makes the front side that breeds the case and is located first guide rail, breed case rebound through controlling device afterwards, breed case rebound through second through-hole removal glass case, so can make things convenient for the manual work to get to breed the case and put, when needs will breed the case and reset, artifical repetition above-mentioned operation can make breed the case reset, artifical messenger sliding plate rebound resets afterwards.

When the cultivation box needs to be moved out of the glass box, the first crank handle is manually shaken to enable the first rotating rod to rotate, the first rotating rod rotates to drive the first belt pulley on the right side to rotate, the first belt pulley on the right side rotates to enable the first belt pulley on the left side to rotate through the first flat belt, the first belt pulley on the left side rotates to drive the first guide rail to rotate, the first guide rail rotates to drive the supporting plate to rotate, the supporting rod can be located at the bottom of the cultivation box, then the second crank handle is manually shaken to enable the first rotating shaft to rotate forwards, the first rotating shaft rotates forwards to drive the second belt pulley on the lower side to rotate forwards, the second belt pulley on the lower side rotates forwards to enable the second rotating shaft to rotate forwards, the rack moves upwards to drive the rack slide rail to move upwards, slide rail upward movement makes first guide pin bushing upward movement through L-shaped piece and fourth bearing seat, so can make breed case upward movement, after breeding case upward movement to suitable position, artifical stop rotating second crank, the first crank of artifical rocking makes breed case rotate to the front side of first guide rail afterwards, artifical hand forward rotation second crank can make breed case shift out the glass incasement upwards afterwards, when needs will breed the case and reset, artifical repetition above-mentioned operation can.

When needs are to the oxygen suppliment in the glass case, the artifical air pump that starts is absorb the air in the external world, pushes the air jet head through the trachea afterwards, by the jet head blowout at last, so can carry out the oxygen suppliment to the glass incasement, when need not be to the oxygen suppliment in the glass case, the air pump is closed to the manual work.

When the second crank does not need to be rotated, the screw rod is twisted clockwise by a hand to enable the pressing block to move upwards, when the pressing block moves upwards and is attached to the first rotating shaft, the first rotating shaft can be fixed, the second crank can be prevented from rotating by itself, and when the second crank needs to be rotated, the screw rod is twisted counterclockwise by a hand to enable the pressing block to move downwards and reset.

When needs watch the aquatic products of breeding the incasement, artifical swing baffle to the top will breed the case earlier and open, when the aquatic products that need not breed the incasement are watched, artifical swing baffle reset can, the baffle can prevent to breed the incasement aquatic products and jump out the breed case, the fourth through hole can carry out the oxygen suppliment for the aquatic products of breeding the incasement, removal breed case that the position sleeve can be better to prevent to breed the case and drop.

The invention has the beneficial effects that: the control device can be used for conveniently taking and placing the aquaculture box in the glass box manually, the oxygen supply device can supply oxygen to the aquatic products in the aquaculture box, so that the aquatic products in the aquaculture box can be prevented from being anoxic and dead, the baffle can prevent the aquatic products in the aquaculture box from jumping out of the aquaculture box, the pressing block can move up and down to fix the first rotating shaft, and the second crank can be prevented from rotating automatically.

Drawings

Fig. 1 is a schematic front view of the present invention.

Fig. 2 is a first partial right-view structural diagram of the present invention.

Fig. 3 is a schematic front view of the control device of the present invention.

Fig. 4 is a schematic front view of the oxygen supply apparatus of the present invention.

Fig. 5 is a partial schematic front view of the present invention.

Fig. 6 is a second partial right-view structural diagram of the present invention.

Part names and serial numbers in the figure: 1 bottom plate, 2 mounting frames, 3 glass box, 4 first bearing block, 5 first guide rail, 6 first through hole, 7 first guide sleeve, 8 support plate, 9 first extension rod, 10 support rod, 11 placing frame, 12 cultivation box, 13 control device, 14 cover plate, 15 second through hole, 16 sliding plate, 17 control hole, 18L-shaped frame, 19 second guide rail, 20 second guide sleeve, 131 connecting plate, 132 second bearing block, 133 first rotating rod, 134 first crank, 135 first belt pulley, 136 first flat belt, 137 connecting rod, 138 third bearing block, 139 second rotating rod, 1310 gear, 1311 connecting block, 1312 first rotating shaft, 1313 second crank, 1314 second belt pulley, 1315 second flat belt, 1316 fourth bearing block, 1317L-shaped block, 1318 sliding rail, 1319 sliding block, 1320 second extension rod, 1321 rack, 30 oxygen supply device, 301 fixed block, 302 air pump, 303 supporting block, 304 air pipe, 305 air nozzle, 306 third through hole, 3021 nut, 3022 screw, 3023 pressing block, 3031 mounting block, 3032 second rotating shaft, 3033 baffle, 3034 positioning sleeve, 3035 fourth through hole.

Detailed Description

The invention is further described with reference to the following figures and detailed description.

Example 1

An aquaculture box convenient for classified placement and quick taking and placing is shown in figures 1-6 and comprises a bottom plate 1, mounting frames 2, a glass box 3, a first bearing seat 4, a first guide rail 5, a first guide sleeve 7, a supporting plate 8, a first extension rod 9, a supporting rod 10, a placing frame 11, a culture box 12, a control device 13, a cover plate 14, a sliding plate 16, an L-shaped frame 18, a second guide rail 19 and a second guide sleeve 20, wherein the left side and the right side of the top of the bottom plate 1 are respectively connected with the mounting frames 2, the glass box 3 is connected between the tops of the two mounting frames 2, the first bearing seat 4 is installed in the middle of the bottom plate 1 in an embedded mode, the first guide rail 5 is connected in the first bearing seat 4, a first through hole 6 is formed in the middle of the bottom of the glass box 3, the top end of the first guide rail 5 penetrates through the first through hole 6, the first guide sleeve 7 is arranged on the lower portion, the front side and the rear side of the supporting plate 8 are both connected with first extension rods 9, the front end of the first extension rod 9 at the front side and the rear end of the first extension rod 9 at the rear side are both connected with supporting rods 10, the front side and the rear side of the left side in the glass box 3 are connected with a plurality of placing frames 11 at uniform intervals, the front side and the rear side of the right side in the glass box 3 are also connected with a plurality of placing frames 11 at uniform intervals, a cultivation box 12 is placed between the tops of the front placing frame 11 and the rear placing frame, the right side of the top of the first guide sleeve 7 is connected with an operation device 13, the top of the glass box 3 is connected with a cover plate 14, the middle of the cover plate 14 is provided with a second through hole 15, the tops of the cover plates 14 at the left side and the right side of the second through hole 15 are both connected with L-shaped frames 18, the inner sides of the two L-shaped frames 18 are both connected with second guide rails 19.

Example 2

The control device 13 comprises a connecting plate 131, a second bearing seat 132, a first rotating rod 133, a first crank 134, a first belt pulley 135, a first flat belt 136, a connecting rod 137, a third bearing seat 138, a second rotating rod 139, a gear 1310, a connecting block 1311, a first rotating shaft 1312, a second crank 1313, a second belt pulley 1314, a second flat belt 1315, a fourth bearing seat 1316, an L-shaped block 1317, a sliding rail 1318, a sliding block 1319, a second extending rod 1320 and a rack 1321, the upper part of the right side surface of the glass box 3 is connected with the connecting plate 131, the right part of the connecting plate 131 is embedded with the second bearing seat 132, the second bearing seat 132 is connected with the first rotating rod 133, the bottom end of the first rotating rod 133 is connected with the first crank 134, the top end of the first rotating rod 133 and the upper part of the first guide rail 5 are connected with the first belt pulley 135, the first flat belt pulley 136 is wound between the two first belt pulleys 135, the top of the cover plate 14 on, third bearing 138 is embedded in the upper portion of connecting rod 137, second rotating rod 139 is connected in third bearing 138, gear 1310 is connected to the left end of second rotating rod 139, connecting block 1311 is connected to the left side of the bottom of connecting plate 131, first rotating shaft 1312 is rotatably connected to the right side of connecting block 1311, second crank 1313 is connected to the right end of first rotating shaft 1312, second pulleys 1314 are connected to the middle of first rotating shaft 1312 and the right end of second rotating rod 139, second flat belt 1315 is wound between two second pulleys 1314, fourth bearing 1316 is installed at the top of first guide bush 7, L-shaped block 1317 is connected to the right side of fourth bearing 1316, slide rail 1318 is connected to the top of L-shaped block 1317, slide block 1319 is arranged on slide rail 1318, second extension rod 1320 is connected between the front side of slide block 1319 and the left side of connecting rod 137, rack 1321 is connected to the right side of slide rail 1318, and gear 1310 is meshed.

Example 3

Still including oxygen supply apparatus 30, oxygen supply apparatus 30 is including fixed block 301, air pump 302, supporting shoe 303, trachea 304 and jet-propelled head 305, 1 top on the left bottom plate of left side mounting bracket 2 is connected with fixed block 301, air pump 302 is installed at the top of fixed block 301, the bottom left and right sides in the glass case 3 all is connected with supporting shoe 303, be connected with trachea 304 between the top of two supporting shoe 303, the even spaced a plurality of jet-propelled heads 305 that are connected with in top of trachea 304, the lower part of 3 left surfaces of glass case has third through-hole 306, third through-hole 306 is located the downside of rack 11, third through-hole 306 is passed to the left end of trachea 304, trachea 304's left end is connected with air pump 302.

Example 4

The device also comprises a nut 3021, a screw 3022 and a pressing block 3023, the nut 3021 is connected to the right side of the connecting block 1311 on the lower side of the first rotating shaft 1312, the screw 3022 is arranged in the nut 3021, and the pressing block 3023 is connected to the top end of the screw 3022.

Example 5

The cultivation box is characterized by further comprising a mounting block 3031, a second rotating shaft 3032, a baffle 3033 and a positioning sleeve 3034, the mounting block 3031 is connected to the front side of the top of the cultivation box 12, the second rotating shaft 3032 is rotatably connected to the mounting block 3031, the baffle 3033 is connected to the second rotating shaft 3032, a plurality of fourth through holes 3035 are uniformly arranged at the top of the baffle 3033 at intervals, the positioning sleeve 3034 is connected to the front side and the rear side of the bottom of the cultivation box 12, and the two placing frames 11 are located between the two positioning sleeves 3034.

When the cultivation box 12 needs to be moved, the sliding plate 16 is manually moved backwards, then the supporting plate 8 is manually rotated through the first guide sleeve 7 by the control device 13, the supporting plate 8 is rotated to rotate the supporting rod 10 through the first extension rod 9, after the supporting rod 10 rotates and is positioned below the cultivation box 12, the supporting rod 10 is moved upwards manually through the control device 13, the supporting rod 10 moves upwards to drive the cultivation box 12 to move upwards, when the cultivation box 12 is moved upwards to a proper position, the manual operation device enables the cultivation box 12 to be positioned at the front side of the first guide rail 5, then the cultivation box 12 is moved upwards through the control device 13, the cultivation box 12 moves upwards and moves out of the glass box 3 through the second through hole 15, so that the cultivation box 12 can be conveniently taken and placed manually, when the cultivation box 12 needs to be reset, the cultivation box 12 can be reset by manually repeating the above operation, and then the sliding plate 16 is manually moved forward to be reset.

When the cultivation box 12 needs to be moved out of the glass box 3, the first crank 134 is manually shaken by hand to rotate the first rotating rod 133, the first rotating rod 133 rotates to drive the right first belt pulley 135 to rotate, the right first belt pulley 135 rotates to drive the left first belt pulley 135 to rotate through the first flat belt 136, the left first belt pulley 135 rotates to drive the first guide rail 5 to rotate, the first guide rail 5 rotates to drive the pallet 8 to rotate, so that the support rod 10 is positioned at the bottom of the cultivation box 12, then the second crank 1313 is manually shaken to drive the first rotating shaft 1312 to rotate forward, the first rotating shaft 1312 rotates forward to drive the lower second belt pulley 1314 to rotate forward, the lower second belt pulley 1314 rotates forward through the second flat belt 1315 to drive the upper second belt pulley 1314 to rotate forward, the upper second belt pulley 1314 rotates forward to drive the second rotating rod 139 to rotate forward, and the second rotating rod 139 rotates forward to move the rack 1321 upward, the rack 1321 moves upwards to drive the slide rail 1318 to move upwards, the slide rail 1318 moves upwards to enable the first guide sleeve 7 to move upwards through the L-shaped block 1317 and the fourth bearing 1316, so that the cultivation box 12 can move upwards, after the cultivation box 12 moves upwards to a proper position, the second crank 1313 stops rotating manually, then the first crank 134 is shaken manually to enable the cultivation box 12 to rotate to the front side of the first guide rail 5, then the second crank 1313 rotates forwards manually to enable the cultivation box 12 to move upwards out of the glass box 3, and when the cultivation box 12 needs to be reset, the operation is repeated manually.

When oxygen supply is needed to the glass box 3, the air pump 302 is manually started to suck the outside air, then the air is pushed into the air nozzle 305 through the air pipe 304 and finally sprayed out of the air nozzle 305, so that oxygen supply can be carried out in the glass box 3, and when oxygen supply is not needed to the glass box 3, the air pump 302 is manually closed.

When the second crank 1313 does not need to be rotated, the screw 3022 is manually screwed clockwise to move the pressing piece 3023 upward, when the pressing piece 3023 moves upward and is tightly attached to the first rotating shaft 1312, the first rotating shaft 1312 can be fixed, the second crank 1313 can be prevented from rotating by itself, and when the second crank 1313 needs to be rotated, the screw 3022 is manually screwed counterclockwise to move the pressing piece 3023 downward and reset.

When the aquatic products in the aquaculture box 12 need be watched, the aquaculture box 12 is opened by the manual upward swing baffle 3033, when the aquatic products in the aquaculture box 12 need not be watched, the manual swing baffle 3033 is reset, the baffle 3033 can prevent the aquatic products in the aquaculture box 12 from jumping out of the aquaculture box 12, the fourth through hole 3035 can supply oxygen for the aquatic products in the aquaculture box 12, and the movable aquaculture box 12 which can be better is provided with the positioning sleeve 3034, so that the aquaculture box 12 is prevented from falling.

While the disclosure has been shown and described with reference to certain exemplary embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the disclosure as defined by the appended claims and their equivalents. Accordingly, the scope of the present disclosure should not be limited to the above-described embodiments, but should be defined not only by the appended claims, but also by equivalents thereof.

Claims

1. An aquaculture box convenient for classified placement and quick taking and placing comprises a bottom plate (1), mounting frames (2), glass boxes (3), first bearing seats (4), first guide rails (5), first guide sleeves (7), supporting plates (8), first extension rods (9) and supporting rods (10), wherein the mounting frames (2) are connected to the left side and the right side of the top of the bottom plate (1), the glass boxes (3) are connected between the tops of the two mounting frames (2), the first bearing seats (4) are installed in the middle of the bottom plate (1) in an embedded mode, the first guide rails (5) are connected in the first bearing seats (4), first through holes (6) are formed in the middle of the bottoms of the glass boxes (3), the top ends of the first guide rails (5) penetrate through the first through holes (6), the first guide sleeves (7) are arranged on the lower portions of the first guide rails (5), the supporting plates (8) are connected to the left side faces of the first guide, both sides all are connected with first extension rod (9) around layer board (8), and the front end of the first extension rod of front side (9) all is connected with die-pin (10), its characterized in that with the rear end of the first extension rod of rear side (9): the glass box is characterized by further comprising placing frames (11), breeding boxes (12), an operating device (13), cover plates (14), sliding plates (16), L-shaped frames (18), second guide rails (19) and second guide sleeves (20), wherein the front side and the rear side of the left side face in the glass box (3) are uniformly connected with the placing frames (11) at intervals, the front side and the rear side of the right side face in the glass box (3) are also uniformly connected with the placing frames (11) at intervals, the breeding boxes (12) are placed between the tops of the front placing frame and the rear placing frame (11), the right side of the top of the first guide sleeve (7) is connected with the operating device (13), the top of the glass box (3) is connected with the cover plates (14), second through holes (15) are formed in the middle parts of the cover plates (14), the tops of the cover plates (14) on the left side and the right side of each second through hole (15) are both connected with the L, a second guide sleeve (20) is arranged on the second guide rail (19), a sliding plate (16) is connected between the two second guide sleeves (20), and the middle part of the front side surface of the sliding plate (16) is provided with an operation hole (17); the control device (13) comprises a connecting plate (131), a second bearing seat (132), a first rotating rod (133), a first crank (134), a first belt pulley (135), a first flat belt (136), a connecting rod (137), a third bearing seat (138), a second rotating rod (139), a gear (1310), a connecting block (1311), a first rotating shaft (1312), a second crank (1313), a second belt pulley (1314), a second flat belt (1315), a fourth bearing seat (1316), an L-shaped block (1317), a sliding rail (1318), a sliding block (1319), a second extending rod (1320) and a rack (1321), the upper part of the right side surface of the glass box (3) is connected with the connecting plate (131), the second bearing seat (132) is installed on the right part of the connecting plate (131) in an embedded manner, the first rotating rod (133) is connected in the second bearing seat (132), the bottom end of the first rotating rod (133) is connected with the first crank (134), the top end of the first rotating rod (133) and the upper part of the first guide rail (5) are respectively connected with a first belt pulley (135), a first flat belt (136) is wound between the two first belt pulleys (135), the top of the cover plate (14) on the right side of the right L-shaped frame (18) is connected with a connecting rod (137), the upper part of the connecting rod (137) is embedded with a third bearing seat (138), a second rotating rod (139) is connected in the third bearing seat (138), the left end of the second rotating rod (139) is connected with a gear (1310), the left side of the bottom of the connecting plate (131) is connected with a connecting block (1311), the right side surface of the connecting block (1311) is rotatably connected with a first rotating shaft (1312), the right end of the first rotating shaft (1312) is connected with a second crank (1313), the middle part of the first rotating shaft (139) and the right end of the second rotating rod (139) are both connected with a second belt pulley (1314), and a second flat belt, fourth bearing seat (1316) is installed at the top of first guide pin bushing (7), the right flank of fourth bearing seat (1316) is connected with L-shaped piece (1317), the top of L-shaped piece (1317) is connected with slide rail (1318), be equipped with slider (1319) on slide rail (1318), be connected with second extension rod (1320) between the leading flank of slider (1319) and the left surface of connecting rod (137), the right flank of slide rail (1318) is connected with rack (1321), rack (1321) and gear (1310) meshing.

2. An aquaculture tank as claimed in claim 1, wherein said tank is adapted for sorting and quick access: still including oxygen supply apparatus (30), oxygen supply apparatus (30) are including fixed block (301), air pump (302), supporting shoe (303), trachea (304) and jet-propelled head (305), left side mounting bracket (2) left bottom plate (1) top is connected with fixed block (301), air pump (302) are installed at the top of fixed block (301), the bottom left and right sides in glass case (3) all is connected with supporting shoe (303), be connected with trachea (304) between the top of two supporting shoe (303), the even spaced a plurality of jet-propelled heads (305) that are connected with in top of trachea (304), open the lower part of glass case (3) left surface has third through-hole (306), third through-hole (306) are located the downside of rack (11), the left end of trachea (304) passes third through-hole (306), the left end and the air pump (302) of trachea (304) are connected.

3. An aquaculture tank as claimed in claim 2, wherein said tank is adapted for sorting and quick access: the novel rotary joint is characterized by further comprising a nut (3021), a screw rod (3022) and a pressing block (3023), the nut (3021) is connected to the right side of the connecting block (1311) on the lower side of the first rotating shaft (1312), the screw rod (3022) is arranged in the nut (3021), and the pressing block (3023) is connected to the top end of the screw rod (3022).

4. An aquaculture tank as claimed in claim 3, wherein said tank is adapted for sorting and quick access: still including installation piece (3031), second pivot (3032), baffle (3033) and position sleeve (3034), the front side at breed case (12) top is connected with installation piece (3031), the rotation type is connected with second pivot (3032) on installation piece (3031), be connected with baffle (3033) on second pivot (3032), the even spaced division in top of baffle (3033) has a plurality of fourth through-holes (3035), both sides all are connected with position sleeve (3034) around breed case (12) bottom, two rack (11) are located between two position sleeve (3034).