CN108164013A - A kind of novel microporous aeration oxygen replenishing equipment used for aquiculture - Google Patents

Abstract

The invention discloses a kind of novel microporous aeration oxygen replenishing equipment used for aquiculture,Its structure includes aeration testing agency,Rubber stringing,Main air delivering pipeline,Reticulated duct,Aeration plate,Reducer tee,Reducing socket,Buffer gas receiver,Pressure gauge,Host,Filtering silencer,Motor,Rack,The aeration testing agency, which is fixed, to be welded on the left of rack,And it is connected by screw bolt reinforcing,The motor is fixed at frame upper end,It is and fixedly embedded on the right side of aeration testing agency,The present invention realizes castor when motion contact is to the first flap and the second flap to the left for bent axle promotion,First flap is moved to the left using the first rotating wheel with the second flap with the second rotating wheel as the center of circle,Castor is made to continue motion contact to the left,Equipment is made to improve the oxygenation efficiency of micro-pore aeration oxygen increasing equipment,It also avoids simultaneously since outlet is uneven,Easily cause the problem of local fry accumulation deficency is dead.

Description

A kind of novel microporous aeration oxygen replenishing equipment used for aquiculture

Technical field

The present invention is a kind of novel microporous aeration oxygen replenishing equipment used for aquiculture, belongs to technical field used for aquiculture.

Background technology

Pond micro-pore aeration bleeding technique is a kind of novel water body solid aeration oxygen replenishing that aquaculture in recent years is newly risen Technology, can efficient uniform mixing air and water body, enhance self detergent power of water body, realize full pond high-efficient solid oxygenation. At present, the aeration plate in the micro-pore aeration oxygen increasing equipment of outdoor large soil pond is all by multiple a diameter of 1m~1.5m or so mostly Disk composition, since each aeration tube is shorter, be generally connected directly using a threeway with air pumping pipe, and be fixed on round metal On disk.

But microporous pipe gas output of the existing micro-pore aeration oxygen increasing equipment around air pumping pipe threeway is very big, and it is separate Gas output it is smaller, overall oxygenation effect is poor, and since different parts gas output is uneven, the small place of gas output easily causes fish Seedling accumulates hypoxia death.

Invention content

In view of the deficienciess of the prior art, it is an object of the present invention to provide a kind of novel microporous aeration oxygen replenishings used for aquiculture Equipment, it is very big to solve microporous pipe gas output of the existing micro-pore aeration oxygen increasing equipment around air pumping pipe threeway, and it is separate Gas output it is smaller, overall oxygenation effect is poor, and since different parts gas output is uneven, the small place of gas output easily causes fish Seedling accumulates the problem of hypoxia death.

To achieve these goals, the present invention is to realize by the following technical solutions：It is a kind of used for aquiculture novel Micro-pore aeration oxygen increasing equipment, structure include aeration testing agency, rubber stringing, main air delivering pipeline, reticulated duct, aeration plate, different Diameter threeway, reducing socket, buffering gas receiver, pressure gauge, host, filtering silencer, motor, rack, aeration detection Mechanism fixation is welded on the left of rack, and connected by screw bolt reinforcing, and the motor is fixed at frame upper end, and fixed It is embedded on the right side of aeration testing agency, the host is fixed at frame upper end, and fixedly embedded right in aeration testing agency Side, filtering silencer fixation is welded in host front end, and close connection, the buffering gas receiver are fixed between the two Host backend is welded in, and is connected between the two inside, the pressure gauge is fixed at buffering gas receiver upper end, and the two Between be mutually fitted into, the rubber stringing is fixed at buffering gas storage tube rear end, and the reducing socket is fixedly embedded in rubber Stringing rear end, and connect between the two inside, main air delivering pipeline fixation is welded in reducing socket rear end, and in the two It connects between portion, the reducer tee fixing sleeve is together in main air delivering pipeline outer surface, the reticulated duct and reducer tee Electrical connection, the reticulated duct other end are electrically connected with aeration plate, and the aeration testing agency is connected by enclosed mechanism, pulley Mechanism, overturning touching mechanism, movable frame, driving structure, gear bindiny mechanism, transmission mechanism, fixed cross beam, connecting sliding rail group Into the enclosed mechanism is fixed between movable frame and buffering gas receiver, and the driving structure is fixed at activity Frame upper end, overturning touching mechanism is fixed at below driving structure, and be flexibly connected with pulley connection, described Pulley connection be fixed at lower left inside movable frame, and be flexibly connected with transmission mechanism, the fixed cross beam It is fixed to be welded in the lower right corner inside movable frame, and connected by screw bolt reinforcing, it is fixed with activity in the fixed cross beam The groove of connecting sliding rail, and being integrated molding structure are installed, the gear bindiny mechanism is fixed above connecting sliding rail, And flexible connection is matched, the gear bindiny mechanism and driving structure are in mating connection, and transmission mechanism fixation is set It is closely connect on the left of gear bindiny mechanism, and with overturning touching mechanism.

Further, the enclosed mechanism is made of the first rotating wheel, the first flap, the second flap, the second rotating wheel, First rotating wheel is consistent with the second rotation size of wheel, and is respectively arranged on indentation, there on the left of movable frame, and described first Flap is consistent with the second flap size, and is respectively welded on the inside of the first rotating wheel and the second rotating wheel, the described first rotation Wheel, the second rotating wheel and the first flap, the second flap are integrated molding structure.

Further, the pulley connection is by first pulley, second pulley, metal contact wires, third pulley, horizontal stroke To supporting rack, roller, firm banking, the first vertical supporting frame, the second vertical supporting frame composition, the cross-brace frame is fixed Movable frame inner wall is welded in, the third pulley is fixedly embedded in cross-brace frame right lateral surface, the firm banking Fixed to be welded in the lower left corner inside movable frame, the roller is fixedly embedded in firm banking upper end face, and described first From left to right level is welded in movable frame interior bottom portion successively for vertical supporting frame and the second vertical supporting frame, and described first slides Wheel is respectively embedded into second pulley in the first vertical supporting frame and the second vertical supporting frame upper end face, the metal contact wires It is movably connected in first pulley, second pulley, third pulley, outer surface of cylinder.

Further, the overturning touches mechanism by castor, contraction spring, support plate, nail-plate, connecting rod, bent axle group Into bent axle fixation is welded in rotating disk lower end, and match flexible connection, and connecting rod fixation is welded in a bent axle left side Side, and welding together with nail-plate there are two the contraction spring is set, and is vertically connected between support plate and nail-plate, institute The castor stated is fixed on the left of support plate, and is connect with third moveable roller.

Further, the driving structure is made of rotating disk, retarder, shaft, driving motor, driving electricity Machine welds together with shaft, and connects between the two inside, and the shaft is fixedly embedded inside movable frame, described Retarder weld together with shaft, and match flexible connection, the rotating disk is located at below retarder, and matches Flexible connection.

Further, the gear bindiny mechanism by first gear, second gear, third gear, linear gear rack, slide Montant restores spring composition, and the montant that slides is fixed at connecting sliding rail upper end, and match flexible connection, described Linear gear rack fixation is welded in and slides montant upper end, the recovery spring be movably connected on slide montant and movable frame it Between, the third gear is fixed above linear gear rack, and is meshed between the two, the second gear and third tooth Wheel is meshed, and the first gear is meshed with second gear, and the first gear is in contact with driving structure.

Further, the transmission mechanism is solid by the first lateral fixed frame, the 4th pulley, the 4th gear, the second transverse direction Determine frame, the 5th gear composition, the described first lateral fixed frame fixation is welded on the right side of overturning touching mechanism, the 4th tooth Wheel is fixed to be nested in outer surface on the right side of the first lateral fixed frame, and the described second lateral fixed frame fixation, which is welded in, slides a montant left side Side, the 5th gear fixation are nested in the second lateral fixed frame left outer surface, the 4th pulley it is fixedly embedded in Second lateral fixed frame left-hand face.

Further, the first pulley is connect by metal contact wires with the 4th moveable roller.

Advantageous effect

A kind of novel microporous aeration oxygen replenishing equipment used for aquiculture of the invention is carried out in use, starting driving motor, shaft It rotates and by retarder retarded motion, while has also driven rotation disc spins, rotate disc spins and with dynamic crankshaft from the right side It holds to left movement, while movement, castor is moved to the left by contraction spring returning elastic, at this point, castor is moved to the left Metal contact wires are pulled, makes first pulley, second pulley, third pulley, drum movement, while pull the 4th pulley, makes first Lateral fixed frame is moved to the left, and slides montant and the first lateral fixed frame is also followed to be moved to the left on connecting sliding rail, linear gear rack Engage movement clockwise with third gear, at this moment, castor bent axle push to the left motion contact to the first flap and second turn During plate, the first flap is moved to the left using the first rotating wheel with the second flap with the second rotating wheel as the center of circle, make castor continue to Left movement is touched, and equipment is made to improve the oxygenation efficiency of micro-pore aeration oxygen increasing equipment, while also avoid since outlet is uneven, Easily cause the problem of local fry accumulation deficency is dead.

Description of the drawings

Upon reading the detailed description of non-limiting embodiments with reference to the following drawings, other feature of the invention, Objects and advantages will become more apparent upon：

Fig. 1 is a kind of structure diagram of novel microporous aeration oxygen replenishing equipment used for aquiculture of the present invention；

Fig. 2 is the internal structure chart of present invention aeration testing agency；

Fig. 3 is the inside detailed structure view of present invention aeration testing agency；

Fig. 4 is the usage state diagram of present invention aeration testing agency.

In figure：It is aerated testing agency -1, rubber stringing -2, main air delivering pipeline -3, reticulated duct -4, aeration plate -5, reducing three Logical -6, reducing socket -7, buffering gas receiver -8, pressure gauge -9, host -10, filtering silencer -11, motor -12, rack - 13rd, enclosed mechanism -101, pulley connection -102, overturning touching mechanism -103, movable frame -104, driving structure -105, Gear bindiny mechanism -106, transmission mechanism -107, fixed cross beam -108, connecting sliding rail -109, the first rotating wheel -1011, first Flap -1012, the second flap -1013, the second rotating wheel -1014, first pulley -1021, second pulley -1022, metal connection Line -1023, third pulley -1024, cross-brace frame -1025, roller -1026, firm banking -1027, the first vertical supporting frame - 1028th, the second vertical supporting frame -1029, castor -1031, contraction spring -1032, support plate -1033, nail-plate -1034, company Bar -1035, bent axle -1036, rotating disk -1051, retarder -1052, shaft -1053, driving motor -1054, first gear - 1061st, second gear -1062, third gear -1063, linear gear rack -1064, slide montant -1065, restore spring -1066, the One lateral fixed frame -1071, the 4th pulley -1072, the 4th gear -1073, the second lateral fixed frame -1074, the 5th gear - 1075。

Specific embodiment

To be easy to understand the technical means, the creative features, the aims and the efficiencies achieved by the present invention, with reference to Specific embodiment, the present invention is further explained.

- Fig. 4 is please referred to Fig.1, the present invention provides a kind of novel microporous aeration oxygen replenishing equipment and technology scheme used for aquiculture：Its Structure includes aeration testing agency 1, rubber stringing 2, main air delivering pipeline 3, reticulated duct 4, aeration plate 5, reducer tee 6, reducing rope Section 7, buffering gas receiver 8, pressure gauge 9, host 10, filtering silencer 11, motor 12, rack 13, the aeration detection machine The fixation of structure 1 is welded in 13 left side of rack, and is connected by screw bolt reinforcing, and the motor 12 is fixed at 13 upper end of rack, And it is fixedly embedded in 1 right side of aeration testing agency, the host 10 is fixed at 13 upper end of rack, and fixedly embedded in aeration 1 right side of testing agency, the filtering silencer 11 fixation is welded in 10 front end of host, and close connection between the two, described Buffering gas receiver 8 fixation be welded in 10 rear end of host, and connect between the two inside, the pressure gauge 9 is fixed at 8 upper end of gas receiver is buffered, and is mutually fitted between the two, the rubber stringing 2 is fixed at 8 rear end of buffering gas receiver, described Reducing socket 7 it is fixedly embedded in 2 rear end of rubber stringing, and connect between the two inside, the main air delivering pipeline 3 is fixed 7 rear end of reducing socket is welded in, and is connected between the two inside, 6 fixing sleeve of reducer tee is together in main air delivering pipeline 3 Outer surface, the reticulated duct 4 are electrically connected with reducer tee 6, and 4 other end of reticulated duct is electrically connected with aeration plate 5, described Aeration testing agency 1 by enclosed mechanism 101, pulley connection 102, overturning touching mechanism 103, movable frame 104, driving Structure 105, gear bindiny mechanism 106, transmission mechanism 107, fixed cross beam 108, connecting sliding rail 109 form, the sealing machine Structure 101 is fixed between movable frame 104 and buffering gas receiver 8, and the driving structure 105 is fixed at movable frame 104 upper ends, overturning touching mechanism 103 are fixed at 105 lower section of driving structure, and movable with pulley connection 102 Connection, the pulley connection 102 are fixed at 104 inside lower left of movable frame, and with 107 activity of transmission mechanism even It connects, the fixed cross beam 108 fixation is welded in the 104 inside lower right corner of movable frame, and connect by screw bolt reinforcing, described The groove of activity installing connecting sliding rail 109, and being integrated molding structure, the gear are fixed in fixed cross beam 108 Bindiny mechanism 106 is fixed at 109 top of connecting sliding rail, and matches flexible connection, and the gear bindiny mechanism 106 is with driving Dynamic structure 105 is in mating connection, and the transmission mechanism 107 is fixed at 106 left side of gear bindiny mechanism, and is touched with overturning Mechanism 103 closely connect, the enclosed mechanism 101 by the first rotating wheel 1011, the first flap 1012, the second flap 1013, Second rotating wheel 1014 forms, and first rotating wheel 1011 is consistent with 1014 size of the second rotating wheel, and is respectively arranged on work 104 left side indentation, there of dynamic frame, first flap 1012 is consistent with 1013 size of the second flap, and is respectively welded in first 1011 and second rotating wheel of rotating wheel, 1014 inside, first rotating wheel 1011, the second rotating wheel 1014 and the first flap 1012nd, the second flap 1013 is integrated molding structure, and the pulley connection 102 is by first pulley 1021, second Pulley 1022, metal contact wires 1023, third pulley 1024, cross-brace frame 1025, roller 1026, firm banking 1027, One vertical supporting frame 1028, the second vertical supporting frame 1029 form, and the cross-brace frame 1025 fixation is welded in activity box 104 inner wall of frame, the third pulley 1024 are fixedly embedded in 1025 right lateral surface of cross-brace frame, the firm banking 1027 fixations are welded in the 104 inside lower left corner of movable frame, and the roller 1026 is fixedly embedded in 1027 upper end of firm banking Surface, from left to right level is welded in activity box successively for the first vertical supporting frame 1028 and the second vertical supporting frame 1029 104 interior bottom portion of frame, the first pulley 1021 and second pulley 1022 be respectively embedded into the first vertical supporting frame 1028 with Second vertical supporting frame, 1029 upper end face, the metal contact wires 1023 are movably connected in first pulley 1021, Two pulleys 1022, third pulley 1024,1026 outer surface of roller, the overturning touch mechanism 103 by castor 1031, contraction Spring 1032, support plate 1033, nail-plate 1034, connecting rod 1035, bent axle 1036 form, and the bent axle 1036 fixation is welded in rotation 1051 lower end of turntable, and flexible connection is matched, the connecting rod 1035 fixation is welded in 1036 left side of bent axle, and and nail-plate 1034 weld together, there are two the contraction spring 1032 is set, and be vertically connected at support plate 1033 and nail-plate 1034 it Between, the castor 1031 is fixed at 1033 left side of support plate, and is flexibly connected with third pulley 1024, the driving Structure 105 is made of rotating disk 1051, retarder 1052, shaft 1053, driving motor 1054, the driving motor 1054 with Shaft 1053 welds together, and connects between the two inside, and the shaft 1053 is fixedly embedded in movable frame 104 Portion, the retarder 1052 welds together with shaft 1053, and matches flexible connection, and the rotating disk 1051 is located at 1052 lower section of retarder, and flexible connection is matched, the gear bindiny mechanism 106 is by first gear 1061, second gear 1062nd, third gear 1063, linear gear rack 1064, slide montant 1065, restore spring 1066 form, described slides montant 1065 are fixed at 109 upper end of connecting sliding rail, and match flexible connection, and the linear gear rack 1064 fixation, which is welded in, slides 1065 upper end of montant, the recovery spring 1066, which is movably connected on, to be slided between montant 1065 and movable frame 104, described Third gear 1063 is fixed at the top of linear gear rack 1064, and is meshed between the two, the second gear 1062 and the Three gears 1063 are meshed, and the first gear 1061 is meshed with second gear 1062, the first gear 1061 with Driving structure 105 is in contact, and the transmission mechanism 107 is by the first lateral fixed frame 1071, the 4th pulley 1072, the 4th gear 1073rd, the second lateral fixed frame 1074, the 5th gear 1075 form, and the described first lateral fixation of fixed frame 1071, which is welded in, to be turned over Turn 103 right side of touching mechanism, the 4th gear 1073 fixation is nested in the first lateral 1071 right side outer surface of fixed frame, institute The the second lateral fixation of fixed frame 1074 stated, which is welded in, slides 1065 left side of montant, and the 5th gear 1075 fixation is nested in Second 1074 left outer surface of lateral fixed frame, the 4th pulley 1072 are fixedly embedded left in the second lateral fixed frame 1074 Side surface, the first pulley 1021 are flexibly connected by metal contact wires 1023 with the 4th pulley 1072.

Bent axle 1036 described in this patent is most important component in engine.It bears the power that connecting rod transmits, and by its It is changed into torque to export by bent axle and other attachmentes on engine is driven to work.Centrifugal force of the bent axle by gyrating mass, week The gas inertia power of phase variation and the collective effect of reciprocal inertia force, make bent axle bear the effect of flexion torsion load.Therefore Bent axle is asked there are enough strength and stiffness, journal surface need are wear-resisting, work is uniform, balance is good.

When micro-pore aeration oxygen increasing equipment carries out in use, starting driving motor 1054, shaft 1053 rotates and by subtracting Fast 1052 retarded motion of device, while rotating disk 1051 has also been driven to rotate, rotating disk 1051 rotate and with dynamic crankshaft 1036 from Right end is to left movement, and while movement, castor 1031 is moved to the left by 1032 returning elastic of contraction spring, at this point, movable Wheel 1031, which is moved to the left, pulls metal contact wires 1023, makes first pulley 1021, second pulley 1022, third pulley 1024, rolling Cylinder 1026 moves, while pulls the 4th pulley 1072, is moved to the left the first lateral fixed frame 1074, slide montant 1065 also with It is moved to the left on connecting sliding rail 109 with the first lateral fixed frame 1074, linear gear rack 1064 is clockwise with third gear 1063 Engagement movement, at this moment, castor 1031 bent axle push motion contact is to the first flap 1012 and the second flap 1013 to the left when, First flap 1012 is moved to the left with the second flap 1013 with the first rotating wheel 1011 and the second rotating wheel 1014 for the center of circle, makes work Driving wheel 1031 continues motion contact to the left, and equipment is made to improve the oxygenation efficiency of micro-pore aeration oxygen increasing equipment, is also avoided simultaneously Since outlet is uneven, the problem of local fry accumulation deficency is dead is easily caused.

Microporous pipe gas output of the existing micro-pore aeration oxygen increasing equipment of present invention solution around air pumping pipe threeway is very big, And separate gas output is smaller, overall oxygenation effect is poor, and since different parts gas output is uneven, the small place of gas output is easily The problem of fry is caused to accumulate hypoxia death, being combined with each other by above-mentioned component of the invention, makes equipment improve micro-pore aeration The oxygenation efficiency of oxygen increasing equipment, while also avoid since outlet is uneven, easily cause asking for local fry accumulation deficency death Topic.

The basic principles, main features and the advantages of the invention have been shown and described above, for this field skill For art personnel, it is clear that the present invention is not limited to the details of above-mentioned exemplary embodiment, and without departing substantially from the present invention spirit or In the case of essential characteristic, the present invention can be realized in other specific forms.Therefore, in all respects, should all incite somebody to action Embodiment regards exemplary as, and is non-limiting, the scope of the present invention by appended claims rather than on state Bright restriction, it is intended that including all changes falling within the meaning and scope of the equivalent requirements of the claims in the present invention It is interior.Any reference numeral in claim should not be considered as to the involved claim of limitation.

In addition, it should be understood that although this specification is described in terms of embodiments, but not each embodiment is only wrapped Containing an independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should It considers the specification as a whole, the technical solutions in each embodiment can also be properly combined, forms those skilled in the art The other embodiment being appreciated that.

Claims (8)

1. a kind of novel microporous aeration oxygen replenishing equipment used for aquiculture, structure include aeration testing agency (1), rubber stringing (2), main air delivering pipeline (3), reticulated duct (4), aeration plate (5), reducer tee (6), reducing socket (7), buffering gas receiver (8), Pressure gauge (9), host (10), filtering silencer (11), motor (12), rack (13), it is characterised in that：

The aeration testing agency (1) is fixed to be welded on the left of rack (13), and connected by screw bolt reinforcing, and described is electronic Machine (12) is fixed at rack (13) upper end, and fixedly embedded on the right side of aeration testing agency (1), and the host (10) is fixed Set on rack (13) upper end, and fixedly embedded on the right side of aeration testing agency (1), the fixed welding of the filtering silencer (11) In host (10) front end, and close connection between the two, the buffering gas receiver (8) fixation are welded in host (10) rear end, And connect between the two inside, the pressure gauge (9) is fixed at buffering gas receiver (8) upper end, and mutually embedding between the two It closes, the rubber stringing (2) is fixed at buffering gas receiver (8) rear end, and the reducing socket (7) is fixedly embedded in rubber Stringing (2) rear end, and connect between the two inside, after the main air delivering pipeline (3) fixation is welded in reducing socket (7) End, and connect between the two inside, the reducer tee (6) fixing sleeve is described together in main air delivering pipeline (3) outer surface Reticulated duct (4) is electrically connected with reducer tee (6), and the reticulated duct (4) other end is electrically connected with aeration plate (5)；

The aeration testing agency (1) by enclosed mechanism (101), pulley connection (102), overturning touching mechanism (103), Movable frame (104), gear bindiny mechanism (106), transmission mechanism (107), fixed cross beam (108), connects driving structure (105) Connect sliding rail (109) composition；

The enclosed mechanism (101) is fixed between movable frame (104) and buffering gas receiver (8), the driving knot Structure (105) is fixed at movable frame (104) upper end, and overturning touching mechanism (103) is fixed at driving structure (105) Lower section, and be flexibly connected with pulley connection (102), the pulley connection (102) is fixed at movable frame (104) internal lower left, and be flexibly connected with transmission mechanism (107), the fixed cross beam (108) fixation is welded in activity box The internal lower right corner of frame (104), and connected by screw bolt reinforcing, activity installing is fixed in the fixed cross beam (108) and is connected The groove of sliding rail (109), and being integrated molding structure are connect, the gear bindiny mechanism (106) is fixed at connecting sliding rail (109) top, and flexible connection is matched, the gear bindiny mechanism (106) and driving structure (105) are in mating connection, The transmission mechanism (107) is fixed on the left of gear bindiny mechanism (106), and is closely connected with overturning touching mechanism (103) It connects.

2. one kind novel microporous aeration oxygen replenishing equipment used for aquiculture according to claim 1, it is characterised in that：Described Enclosed mechanism (101) is by the first rotating wheel (1011), the first flap (1012), the second flap (1013), the second rotating wheel (1014) it forms, first rotating wheel (1011) is consistent with the second rotating wheel (1014) size, and is respectively arranged on activity box Indentation, there on the left of frame (104), first flap (1012) is consistent with the second flap (1013) size, and is respectively welded in the One rotating wheel (1011) and the second rotating wheel (1014) inside, first rotating wheel (1011), the second rotating wheel (1014) It is integrated molding structure with the first flap (1012), the second flap (1013).

3. one kind novel microporous aeration oxygen replenishing equipment used for aquiculture according to claim 1, it is characterised in that：Described Pulley connection (102) is by first pulley (1021), second pulley (1022), metal contact wires (1023), third pulley (1024), cross-brace frame (1025), roller (1026), firm banking (1027), the first vertical supporting frame (1028), second are erected It being formed to supporting rack (1029), the cross-brace frame (1025) is fixed to be welded in movable frame (104) inner wall, and described the Three pulleys (1024) are fixedly embedded in cross-brace frame (1025) right lateral surface, and the firm banking (1027) fixation is welded in The internal lower left corner of movable frame (104), the roller (1026) is fixedly embedded in firm banking (1027) upper end face, described The first vertical supporting frame (1028) from left to right level is welded in movable frame successively with the second vertical supporting frame (1029) (104) interior bottom portion, the first pulley (1021) are respectively embedded into second pulley (1022) in the first vertical supporting frame (1028) it is movably connected with second vertical supporting frame (1029) upper end face, the metal contact wires (1023) in first Pulley (1021), second pulley (1022), third pulley (1024), roller (1026) outer surface.

4. one kind novel microporous aeration oxygen replenishing equipment used for aquiculture according to claim 1, it is characterised in that：Described Overturning touching mechanism (103) is by castor (1031), contraction spring (1032), support plate (1033), nail-plate (1034), connecting rod (1035), bent axle (1036) forms, and the bent axle (1036) fixation is welded in rotating disk (1051) lower end, and match activity Connection, the connecting rod (1035) is fixed to be welded on the left of bent axle (1036), and weld together with nail-plate (1034), described There are two contraction spring (1032) is set, and it is vertically connected between support plate (1033) and nail-plate (1034), the castor (1031) it is fixed on the left of support plate (1033), and is flexibly connected with third pulley (1024).

5. one kind novel microporous aeration oxygen replenishing equipment used for aquiculture according to claim 1, it is characterised in that：Described Driving structure (105) is made of rotating disk (1051), retarder (1052), shaft (1053), driving motor (1054), described Driving motor (1054) welds together with shaft (1053), and connects between the two inside, and the shaft (1053) is solid Surely it is internal to be embedded in movable frame (104), the retarder (1052) welds together, and match work with shaft (1053) Dynamic connection, the rotating disk (1051) match flexible connection below retarder (1052).

6. one kind novel microporous aeration oxygen replenishing equipment used for aquiculture according to claim 1, it is characterised in that：Described Gear bindiny mechanism (106) is by first gear (1061), second gear (1062), third gear (1063), linear gear rack (1064), it slides montant (1065), restore spring (1066) composition, the montant (1065) that slides is fixed at connecting sliding rail (109) upper end, and flexible connection is matched, fixed be welded in of the linear gear rack (1064) slides montant (1065) upper end, The recovery spring (1066), which is movably connected on, to be slided between montant (1065) and movable frame (104), the third tooth Wheel (1063) is fixed above linear gear rack (1064), and is meshed between the two, the second gear (1062) and the Three gears (1063) are meshed, and the first gear (1061) is meshed with second gear (1062), the first gear (1061) it is in contact with driving structure (105).

7. one kind novel microporous aeration oxygen replenishing equipment used for aquiculture according to claim 1, it is characterised in that：Described Transmission mechanism (107) is laterally solid by the first transverse direction fixed frame (1071), the 4th pulley (1072), the 4th gear (1073), second Determine frame (1074), the 5th gear (1075) composition, the described first lateral fixed frame (1071) is fixed to be welded in overturning touching machine On the right side of structure (103), the 4th gear (1073), which is fixed, is nested in outer surface on the right side of the first lateral fixed frame (1071), described The second fixed be welded in of lateral fixed frame (1074) slide on the left of montant (1065), the 5th gear (1075) fixation is embedding Second lateral fixed frame (1074) left outer surface is placed on, the 4th pulley (1072) is fixedly embedded laterally fixed in second Frame (1074) left-hand face.

8. one kind novel microporous aeration oxygen replenishing equipment used for aquiculture according to claim 3, it is characterised in that：Described First pulley (1021) is flexibly connected by metal contact wires (1023) with the 4th pulley (1072).