CN108077159A - A kind of oxygen increasing equipment used for aquiculture - Google Patents

Abstract

The invention discloses a kind of oxygen increasing equipments used for aquiculture,Its structure includes equipment body,Adjusting knob,Control panel,Immersible pump,Mixing chamber,Diffuser,Air inlet pipe,Inlet automatic regulation device,Immersible pump fixation is welded at the internal cavities bottom right of equipment body,Mixing chamber is vertically connected at the left end surface of immersible pump and it is located at the inner bottom surface middle of equipment body,Air inlet pipe is extended vertically through in the internal cavities middle of equipment body,Inlet automatic regulation device is movably connected in the internal cavities of equipment body,The present invention is in the water for carrying out aquaculture during oxygenation operation,The variation of the submergence depth of equipment can be sensed and real-time adjustment processing is carried out to the air inflow of equipment,Ensure that equipment can also be applied in the larger pond of SEA LEVEL VARIATION,It ensure that the normal oxygenation work in aquaculture pond,Effectively increase the unfailing performance of equipment.

Description

A kind of oxygen increasing equipment used for aquiculture

Technical field

The present invention is a kind of oxygen increasing equipment used for aquiculture, belongs to oxygen increasing equipment manufacturing technology field.

Background technology

Aquaculture is the lower breeding of artificial control, cultivation and the production activity of harvest aquatic animals and plants.It is commonly included in people The overall process of aquatic products is formed under work feeding management from seed.It broadly may also comprise Enhancement of fishery resources, and aquatic animals and plants Big density group reduces oxygen in water, easily causes the underproduction, and traditional oxygen increasing equipment is larger to energy consumption, subregion supplies Oxygen ability is poor, it is necessary to the oxygen increasing equipment that a kind of energy consumption used for aquiculture is smaller, oxygen delivery capacity is strong.

But the prior art carry out aquaculture water in oxygenation operation during, although energy consumption is smaller, It is that the variation of the submergence depth of equipment can not be sensed and real-time adjustment processing is carried out to the air inflow of equipment, may leads It is difficult to be applied in the larger pond of SEA LEVEL VARIATION to cause equipment, unfailing performance deficiency.

The content of the invention

In view of the deficienciess of the prior art, it is an object of the present invention to provide a kind of oxygen increasing equipment used for aquiculture, with solution Certainly the prior art during oxygenation operation, although energy consumption is smaller, pair can not be set in the water for carrying out aquaculture The variation of standby submergence depth is sensed and carries out real-time adjustment processing to the air inflow of equipment, may cause equipment in water It is difficult to be applied in the pond that changes greatly of position, the problem of unfailing performance is insufficient.

To achieve these goals, the present invention is to realize by the following technical solutions：A kind of increasing used for aquiculture Oxygen equipment, structure include equipment body, adjusting knob, control panel, immersible pump, mixing chamber, diffuser, air inlet pipe, air inlet Self-checking device, the adjusting knob are movably connected on the front-end surface right part of equipment body, the control plane by keyway Plate is fixedly connected on the upper end face forefront of equipment body, and the internal cavities that the immersible pump fixation is welded in equipment body are right Lower place, the mixing chamber is vertically connected at the left end surface of immersible pump and it is located at the inner bottom surface middle of equipment body, described Diffuser is fixedly connected on the left end surface of mixing chamber and the inside of itself and mixing chamber and interpenetrates, and the air inlet pipe extends vertically through In the internal cavities middle of equipment body, the inlet automatic regulation device is movably connected on the internal cavities of equipment body Interior, the inlet automatic regulation device is by forced induction control device, rotation wheel construction, pulley attachment device, slip control machine Structure, gear drive, air inlet control structure composition, the forced induction control device are movably connected on the inside of equipment body At cavity upper left, the rotating wheel structure vertical is connected to the rear surface of forced induction control device and itself and equipment body Internal left surface is connected, and the left-half of the pulley attachment device is vertically connected at the right end face middle and lower part of air inlet pipe, Its right half part is vertically connected in the right surface in inside of equipment body at lower, and the slide control mechanism is fixedly connected on equipment The right surface middle in inside of main body, the gear drive is movably connected on the left end surface of slide control mechanism, described Air inlet control structure is movably connected on the most upper place of internal cavities of equipment body, and the forced induction control device is by pressure sensing Device, L-type fixed frame, signal converting controller, control rotation axis, the first rotating wheel, rotation connection frame composition, the pressure sensing Device is fixedly connected on the most upper place in inside left surface of equipment body, and the L-type fixed frame is vertically connected at the inside of equipment body Left surface middle, the signal converting controller are fixedly connected on the most upper place in left end surface of L-type fixed frame and itself and pressure It is electrically connected between sensor by connecting line, the control rotation axis is vertically connected in the rear surface of signal converting controller Between and its be electrically connected between signal converting controller, the first rotating wheel activity be nested in control rotation axis outside table Place is most descended in face, and the rotation connection frame is vertically connected at the most right place of rear surface of the first rotating wheel.

Further, the rotation wheel construction is by the second rotating wheel, rotating wheel shaft, the 3rd rotating wheel, the 4th rotating wheel Fixed frame, the 4th rotating wheel shaft, the 4th rotating wheel, rotating roller composition, second rotating wheel are movably connected on rotation connection The rear surface of frame, the rotating wheel shaft are vertically connected at the rear surface middle of the second rotating wheel, and the described 3rd rotates The outer surface that wheel activity is nested in rotating wheel shaft most descends place, and the 4th rotating wheel fixed frame is fixedly connected on equipment body Inside left surface in it is lower at, the 4th rotating wheel shaft is vertically connected among the right end face of the 4th rotating wheel fixed frame Place, the 4th rotating wheel activity are nested in the outer surface middle of the 4th rotating wheel shaft, and the rotating roller activity is nested In the most right place of the outer surface of the 4th rotating wheel shaft and its be mechanically connected between the 4th rotating wheel.

Further, the pulley attachment device is slided by first pulley fixed frame, first pulley, horizontal fixed frame, second Take turns fixed frame, second pulley, vertical rails composition, the right table in inside that the first pulley fixed frame is vertically connected at equipment body At under in face, the first pulley is movably connected on the left end surface of first pulley fixed frame, and the transverse direction fixed frame vertically connects It is connected in the right end face of air inlet pipe at lower, the second pulley fixed frame is vertically connected at horizontal fixed frame by precompressed bolt Upper end face middle, the second pulley is movably connected on the upper end face of second pulley fixed frame, the vertical rails It is fixedly connected on the right surface middle in inside of equipment body.

Further, the slide control mechanism is by sliding shoe, interior pulley, the frame that is slidably connected, driving cog structure composition, institute It states sliding shoe to be slidably connected in the sliding slot of vertical rails, the interior moveable roller is connected in the internal cavities of sliding shoe, institute The left end surface that the frame that is slidably connected is fixedly connected on sliding shoe is stated, the driving cog even structure is equally spaced in the frame that is slidably connected Left end surface.

Further, the gear drive is by first gear, driven wheel, the first rotation connection bar, rotation axis, secondary tooth Wheel, inside thread, gear teeth structure, the second rotation connection bar composition, the first gear are movably connected on a left side for transmission toothing End surfaces, it is in concentric circles between first gear that the driven wheel, which is mechanically connected to the front-end surface middle of first gear and its, State, the inside thread are uniformly equally spaced in the front-end surface edge of first gear, and the pinion is movably connected on The front-end surface of first gear and its be flexibly connected by inside thread with first gear, between the driven wheel, pinion lead to The first rotation connection bar flexible connection is crossed, described first is rotatablely connected between bar and driven wheel, first is rotatablely connected bar and secondary tooth All it is connected between wheel by rotation axis, the second rotation connection bar is movably connected on the front-end table of pinion by rotation axis At the upper right of face and it extends to the upper right side of pinion, and the gear teeth structure is uniformly equally spaced in first gear, pinion Outer surface edge.

Further, the air inlet control structure is by second gear fixed frame, second gear, second gear output shaft, Three gears, the 3rd gear output shaft, air intake control valve body, air admission hole, engaging tooth composition, the second gear fixed frame passes through pre- Pressure bolt is vertically connected at the right surface top in inside of equipment body, and the second gear is movably connected on second gear fixed frame Left end surface, the second gear output shaft is mechanically connected to the front-end surface middle of second gear and itself and second gear Between in concentric circles state, the 3rd gear is movably connected at the left end of second gear, the 3rd gear output shaft machine Tool be connected to the front-end surface middle of the 3rd gear and its between the 3rd gear in concentric circles state, the air intake control valve Body is extended transversely through in the most upper place in the inside of air inlet pipe, and the air admission hole is uniformly equidistantly embedded in the front-end table of air intake control valve body Face, the engaging tooth are uniformly equally spaced in the rear surface of air intake control valve body.

Further, the 3rd rotating wheel, all uniform equidistant arrangement of the outer surface of the 4th rotating wheel have external screw thread, institute State the 3rd rotating wheel, the 4th rotating wheel is flexibly connected by the engagement between external screw thread, the outer surface of the rotating roller Connection rope is closely wound, the outer surface activity of the first pulley, second pulley, interior pulley has been nested in connecting rope Rope is flexibly connected between the rotating roller, first pulley, second pulley, interior pulley by connecting rope, the first gear, The frame that is slidably connected is flexibly connected by the engagement between gear teeth structure, transmission toothing, and the pinion, first gear are led to The engagement flexible connection between gear teeth structure, inside thread is crossed, the pinion, second gear pass through the second rotation connection Bar is flexibly connected, and outer surface all activities of the second gear output shaft, the 3rd gear output shaft have been nested in driving belt, It is flexibly connected between the second gear, the 3rd gear by driving belt, the 3rd gear, air intake control valve body pass through wheel Engagement flexible connection between toothing, engaging tooth.

Further, the pressure sensor senses the diving depth of equipment and transmits signals to signal conversion Controller, the signal converting controller control it that rotation axis is controlled to be rotated when depth becomes larger, first rotating wheel It is rotated therewith and rotation connection frame is driven to be rotated, second rotating wheel is turned under the transmission of rotation connection frame It moves and so that the 3rd rotating wheel is rotated under the drive of rotating wheel shaft, so as to which the 4th rotating wheel is between external screw thread Engagement under rotated, the rotating roller is rotated and pulls the connection rope of its outer surface therewith, described One pulley, second pulley, the connection rope of interior pulley outer surface are pulled successively therewith, then the sliding shoe, the company of slip Frame is connect to be pulled down and the vertically sliding slot slide downward of slide, the first gear gear teeth structure, transmission toothing it Between engagement under rotated, around driven wheel under engagement of the pinion between gear teeth structure, inside thread It is driven, the second gear is driven under the drive of the second rotation connection bar, and the 3rd gear is in driving belt Under the action of be driven therewith, then under engagement of the air intake control valve body between gear teeth structure, engaging tooth to The right side moves horizontally and so that more air admission holes mutually correlate with air inlet pipe.

Advantageous effect

The present invention provides a kind of scheme of oxygen increasing equipment used for aquiculture, by being equipped with inlet automatic regulation device, In the water of progress aquaculture during oxygenation operation, the variation of the submergence depth of equipment can be sensed and to equipment Air inflow carry out real-time adjustment processing, be specially that pressure sensor senses the diving depth of equipment and passes signal Signal converting controller is handed to, signal converting controller controls it that rotation axis is controlled to be rotated when depth becomes larger, first turn Driving wheel is rotated and rotation connection frame is driven to be rotated therewith, and the second rotating wheel is turned under the transmission of rotation connection frame It moves and so that the 3rd rotating wheel is rotated under the drive of rotating wheel shaft, so as to the 4th rotating wheel nibbling between external screw thread Cooperation is rotated under, and rotating roller is rotated and pulls the connection rope of its outer surface therewith, and first pulley, second are slided Wheel, the connection rope of interior pulley outer surface are pulled successively therewith, and then sliding shoe, the frame that is slidably connected are pulled down simultaneously edge The sliding slot slide downward of vertical rails, first gear are rotated under the engagement between gear teeth structure, transmission toothing, Pinion is driven under the engagement between gear teeth structure, inside thread around driven wheel, and second gear is rotated second It is driven under the drive of connecting rod, the 3rd gear is driven therewith under the action of driving belt, then air intake control valve Body moved horizontally to the right under the engagement between gear teeth structure, engaging tooth and cause more air admission holes and air inlet pipe mutually according to It should, it is ensured that equipment can also be applied in the larger pond of SEA LEVEL VARIATION, ensure that the normal oxygenation work in aquaculture pond Make, effectively increase the unfailing performance of equipment.

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 dimensional structure diagram of oxygen increasing equipment used for aquiculture of the present invention.

Fig. 2 is the inner plane structure diagram of present device main body.

Fig. 3 is immersible pump of the present invention, the signal of mixing chamber, diffuser, air inlet pipe, the planar structure of inlet automatic regulation device Figure.

Fig. 4 is immersible pump of the present invention, mixing chamber, diffuser, air inlet pipe, another working condition of inlet automatic regulation device Planar structure schematic diagram.

Fig. 5 is gear drive of the present invention, the planar structure schematic diagram of air inlet control structure.

In figure：Equipment body -1, adjusting knob -2, control panel -3, immersible pump -4, mixing chamber -5, diffuser -6, air inlet - 7, inlet automatic regulation device -8, forced induction control device -81 are managed, wheel construction -82, pulley attachment device -83 is rotated, slides Dynamic control mechanism -84, gear drive -85, air inlet control structure -86, pressure sensor -811, L-type fixed frame -812, letter Number switching controller -813, control rotation axis -814, the first rotating wheel -815, rotation connection frame -816, the second rotating wheel -821, Rotating wheel shaft -822, the 3rd rotating wheel -823, the 4th rotating wheel fixed frame -824, the 4th rotating wheel shaft -825, the 4th turn Driving wheel -826, rotating roller -827, first pulley fixed frame -831, first pulley -832, horizontal fixed frame -833, second pulley are solid Determine frame -834, second pulley -835, vertical rails -836, sliding shoe -841, interior pulley -842, the frame -843 that is slidably connected, transmission Toothing -844, first gear -851, driven wheel -852, first rotation connection bar -853, rotation axis -854, pinion -855, Inside thread -856, gear teeth structure -857, second rotation connection bar -858, second gear fixed frame -861, second gear -862, Second gear output shaft -863, the 3rd gear -864, the 3rd gear output shaft -865, air intake control valve body -866, air admission hole - 867th, engaging tooth -868.

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.

Please refer to Fig.1-Fig. 5, the present invention provides a kind of oxygen increasing equipment used for aquiculture, structure include equipment body 1, Adjusting knob 2, control panel 3, immersible pump 4, mixing chamber 5, diffuser 6, air inlet pipe 7, inlet automatic regulation device 8, the tune Section knob 2 is movably connected on the front-end surface right part of equipment body 1 by keyway, and the control panel 3 is fixedly connected on equipment The upper end face forefront of main body 1, the fixation of immersible pump 4 are welded at the internal cavities bottom right of equipment body 1, the mixing Room 5 is vertically connected at the left end surface of immersible pump 4 and it is located at the inner bottom surface middle of equipment body 1, and the diffuser 6 is fixed The inside for being connected to the left end surface of mixing chamber 5 and itself and mixing chamber 5 is interpenetrated, and the air inlet pipe 7 is extended vertically through in equipment The internal cavities middle of main body 1, the inlet automatic regulation device 8 are movably connected in the internal cavities of equipment body 1, institute Inlet automatic regulation device 8 is stated to be controlled by forced induction control device 81, rotation wheel construction 82, pulley attachment device 83, slip Mechanism 84, gear drive 85, air inlet control structure 86 form, and the forced induction control device 81 is movably connected on equipment At the internal cavities upper left of main body 1, the rear surface for rotating wheel construction 82 and being vertically connected at forced induction control device 81 And it is connected with the inside left surface of equipment body 1, the left-half of the pulley attachment device 83 is vertically connected at air inlet The right end face middle and lower part of pipe 7, right half part are vertically connected in the right surface in inside of equipment body 1 at lower, the slip Control mechanism 84 is fixedly connected on the right surface middle in inside of equipment body 1, and the gear drive 85 is movably connected on The left end surface of slide control mechanism 84, the internal cavities that the air inlet control structure 86 is movably connected on equipment body 1 are most upper Place, the forced induction control device 81 is by pressure sensor 811, L-type fixed frame 812, signal converting controller 813, control Rotation axis 814, the first rotating wheel 815, rotation connection frame 816 form, and the pressure sensor 811 is fixedly connected on equipment body The 1 most upper place in inside left surface, the L-type fixed frame 812 are vertically connected at the inside left surface middle of equipment body 1, institute State the most upper place in left end surface and itself and pressure sensor 811 that signal converting controller 813 is fixedly connected on L-type fixed frame 812 Between be electrically connected by connecting line, it is described control rotation axis 814 be vertically connected in the rear surface of signal converting controller 813 Between and its be electrically connected between signal converting controller 813,815 activity of the first rotating wheel is nested in control rotation axis 814 outer surface most descends place, and the rotation connection frame 816 is vertically connected at the most right place of rear surface of the first rotating wheel 815, The rotation wheel construction 82 is by the second rotating wheel 821, rotating wheel shaft 822, the 3rd rotating wheel 823, the 4th rotating wheel fixed frame 824th, the 4th rotating wheel shaft 825, the 4th rotating wheel 826, rotating roller 827 form, and second rotating wheel 821 is movably connected on The rear surface of frame 816 is rotatablely connected, the rotating wheel shaft 822 is vertically connected in the rear surface of the second rotating wheel 821 Between, the outer surface that 823 activity of the 3rd rotating wheel is nested in rotating wheel shaft 822 most descends place, the 4th rotating wheel Fixed frame 824 is fixedly connected in the inside left surface of equipment body 1 at lower, 825 vertical connection of the 4th rotating wheel shaft In the right end face middle of the 4th rotating wheel fixed frame 824,826 activity of the 4th rotating wheel is nested in the 4th rotation rotation The outer surface middle of axis 825, the outer surface that 827 activity of rotating roller is nested in the 4th rotating wheel shaft 825 are most right Place and its be mechanically connected between the 4th rotating wheel 826, the pulley attachment device 83 is by first pulley fixed frame 831, first Pulley 832, horizontal fixed frame 833, second pulley fixed frame 834, second pulley 835, vertical rails 836 form, and described first Pulley fixed frame 831 is vertically connected in the right surface in inside of equipment body 1 at lower, and the first pulley 832 is movably connected on The left end surface of first pulley fixed frame 831, under the transverse direction fixed frame 833 is vertically connected in the right end face of air inlet pipe 7 Place, the second pulley fixed frame 834 are vertically connected at the upper end face middle of horizontal fixed frame 833 by precompressed bolt, The second pulley 835 is movably connected on the upper end face of second pulley fixed frame 834, and the vertical rails 836 are fixedly connected In the right surface middle in the inside of equipment body 1, the slide control mechanism 84 is by sliding shoe 841, interior pulley 842, the company of slip Connect frame 843, transmission toothing 844 form, the sliding shoe 841 is slidably connected in the sliding slot of vertical rails 836, the interior cunning Wheel 842 is movably connected in the internal cavities of sliding shoe 841, and the frame 843 that is slidably connected is fixedly connected on a left side for sliding shoe 841 End surfaces, the transmission toothing 844 are uniformly equally spaced in the left end surface for the frame 843 that is slidably connected, the loading drive gear It puts 85 and bar 853, rotation axis 854, pinion 855, inside thread is rotatablely connected by first gear 851, driven wheel 852, first 856th, gear teeth structure 857, second is rotatablely connected bar 858 and forms, and the first gear 851 is movably connected on transmission toothing 844 Left end surface, the driven wheel 852 is mechanically connected to the front-end surface middle of first gear 851 and itself and first gear It is uniformly equally spaced between 851 in concentric circles state, the inside thread 856 in the front-end surface edge of first gear 851, The pinion 855 is movably connected on the front-end surface of first gear 851 and it passes through inside thread 856 and first gear 851 Flexible connection is flexibly connected, described first turn between the driven wheel 852, pinion 855 by the first rotation connection bar 853 It is dynamic all to pass through 854 phase of rotation axis between connecting rod 853 and driven wheel 852, between the first rotation connection bar 853 and pinion 855 Connection, it is described second rotation connection bar 858 be movably connected on by rotation axis 854 at the front-end surface upper right of pinion 855 and It extends to the upper right side of pinion 855, and the gear teeth structure 857 is uniformly equally spaced in first gear 851, pinion 855 Outer surface edge, the air inlet control structure 86 is defeated by second gear fixed frame 861, second gear 862, second gear Shaft 863, the 3rd gear 864, the 3rd gear output shaft 865, air intake control valve body 866, air admission hole 867,868 groups of engaging tooth Into the second gear fixed frame 861 is vertically connected at the right surface top in inside of equipment body 1 by precompressed bolt, described Second gear 862 is movably connected on the left end surface of second gear fixed frame 861, and 863 machinery of second gear output shaft is even Be connected to the front-end surface middle of second gear 862 and its between second gear 862 in concentric circles state, the 3rd gear 864 are movably connected at the left end of second gear 862, and the 3rd gear output shaft 865 is mechanically connected to the 3rd gear 864 Front-end surface middle and its between the 3rd gear 864 in concentric circles state, the air intake control valve body 866 extend transversely through in The most upper place in the inside of air inlet pipe 7, the air admission hole 867 is uniformly equidistantly embedded in the front-end surface of air intake control valve body 866, described Engaging tooth 868 is uniformly equally spaced in the rear surface of air intake control valve body 866, the 3rd rotating wheel 823, the 4th rotating wheel The all uniform equidistant arrangement of 826 outer surface has external screw thread, and the 3rd rotating wheel 823, the 4th rotating wheel 826 pass through external screw thread Between engagement flexible connection, the outer surface of the rotating roller 827 has been closely wound connection rope, the first pulley 832nd, the outer surface activity of second pulley 835, interior pulley 842 has been nested in connection rope, and the rotating roller 827, first is slided It is flexibly connected between wheel 832, second pulley 835, interior pulley 842 by connecting rope, the first gear 851 is slidably connected Frame 843 is flexibly connected by the engagement between gear teeth structure 857, transmission toothing 844, the pinion 855, the first tooth Wheel 851 is flexibly connected by the engagement between gear teeth structure 857, inside thread 856, the pinion 855, second gear 862 are flexibly connected by the second rotation connection bar 858, the second gear output shaft 863, the 3rd gear output shaft 865 it is outer Side surface all activities have been nested in driving belt, pass through driving belt activity between the second gear 862, the 3rd gear 864 Connection, the 3rd gear 864, air intake control valve body 866 are lived by the engagement between gear teeth structure 857, engaging tooth 868 Dynamic connection, the pressure sensor 811 sense the diving depth of equipment and transmit signals to signal converting controller 813, the signal converting controller 813 controls it that rotation axis 814 is controlled to be rotated when depth becomes larger, and described first rotates Wheel 815 is rotated and rotation connection frame 816 is driven to be rotated therewith, and second rotating wheel 821 is in rotation connection frame 816 Transmission under rotated and so that the 3rd rotating wheel 823 is rotated under the drive of rotating wheel shaft 822, so as to described the Four rotating wheels 826 are rotated under the engagement between external screw thread, and the rotating roller 827 is rotated and pulls it therewith The connection rope of outer surface, the first pulley 832, second pulley 835,842 outer surface of interior pulley connection rope with Be pulled successively, then the sliding shoe 841, the frame 843 that is slidably connected be pulled down and vertically the sliding slot of slide 836 to Lower slider, the first gear 851 are rotated under the engagement between gear teeth structure 857, transmission toothing 844, institute It states and is driven under engagement of the pinion 855 between gear teeth structure 857, inside thread 856 around driven wheel 852, it is described Second gear 862 is driven under the drive of the second rotation connection bar 858, and the 3rd gear 864 is in the work of driving belt It is driven therewith under, then engagement of the air intake control valve body 866 between gear teeth structure 857, engaging tooth 868 Under move horizontally to the right and so that more air admission holes 867 correlate with 7 phase of air inlet pipe.

Pressure sensor described in this patent is usually made of pressure-sensing device and signal processing unit.By different surveys Pressure type is tried, pressure sensor can be divided into gauge pressure transducer, differential pressure pick-up and absolute pressure sensor.It is to experience pressure letter Number, and pressure signal can be converted into the device or device of the electric signal of available output according to certain rule.

In use, first check for whether equipment appearance is intact, and whether each several part consolidates connection, after confirming Plant in good condition, Equipment is placed in place, the adjusting knob 2 of equipment is adjusted to suitable working condition, the control plane of adjustment equipment Plate 3, opens the immersible pump 4 of equipment, and pressure sensor 811 senses the diving depth of equipment and transmits signals to signal Switching controller 813, signal converting controller 813 control it that rotation axis 814 is controlled to be rotated when depth becomes larger, first turn Driving wheel 815 is rotated and rotation connection frame 816 is driven to be rotated therewith, and the second rotating wheel 821 is in rotation connection frame 816 It is rotated under transmission and so that the 3rd rotating wheel 823 is rotated under the drive of rotating wheel shaft 822, so as to which the 4th rotates It is rotated under 826 engagement between external screw thread of wheel, rotating roller 827 is rotated and pulls its outer surface therewith Rope is connected, first pulley 832, second pulley 835, the connection rope of 842 outer surface of interior pulley are pulled successively therewith, in It is sliding shoe 841, the frame 843 that is slidably connected is pulled down and the vertically sliding slot slide downward of slide 836, first gear 851 It is rotated under engagement between gear teeth structure 857, transmission toothing 844, pinion 855 is in gear teeth structure 857, interior It is driven under engagement between side screw thread 856 around driven wheel 852, second gear 862 is in the second rotation connection bar 858 It is driven under drive, the 3rd gear 864 is driven therewith under the action of driving belt, then air intake control valve body 866 Moved horizontally to the right under engagement between gear teeth structure 857, engaging tooth 868 and cause more air admission holes 867 with into 7 phase of tracheae correlates, and the equipment can start to work normally afterwards.

The present invention solves the problems, such as be the prior art oxygenation operates in the water for carrying out aquaculture during, although energy Source consumption is smaller, but the variation of the submergence depth of equipment can not be sensed and the air inflow of equipment is adjusted in real time Whole processing, it is difficult to be applied in the larger pond of SEA LEVEL VARIATION that may cause equipment, and unfailing performance deficiency, the present invention is by upper Being combined with each other for component is stated, by being equipped with inlet automatic regulation device, the process of oxygenation operation in the water for carrying out aquaculture In, the variation of the submergence depth of equipment can be sensed and real-time adjustment processing is carried out to the air inflow of equipment, specifically The diving depth of equipment is sensed for pressure sensor and transmits signals to signal converting controller, signal conversion and control Device controls it that rotation axis is controlled to be rotated when depth becomes larger, and the first rotating wheel is rotated and drives rotation connection frame therewith It is rotated, the second rotating wheel is rotated under the transmission of rotation connection frame and causes the 3rd rotating wheel in rotating wheel shaft It is rotated under drive, so as to be rotated under engagement of the 4th rotating wheel between external screw thread, rotating roller carries out therewith Rotate and pull the connection rope of its outer surface, first pulley, second pulley, interior pulley outer surface connection rope therewith It is pulled successively, then sliding shoe, the frame that is slidably connected are pulled down and the vertically sliding slot slide downward of slide, first gear It is rotated under engagement between gear teeth structure, transmission toothing, pinion is between gear teeth structure, inside thread It is driven under engagement around driven wheel, second gear is driven under the drive of the second rotation connection bar, the 3rd gear It is driven therewith under the action of driving belt, then engagement of the air intake control valve body between gear teeth structure, engaging tooth is made It is moved horizontally to the right under and so that more air admission holes mutually correlate with air inlet pipe, it is ensured that equipment is in the larger pond of SEA LEVEL VARIATION It can also be applied, ensure that the normal oxygenation work in aquaculture pond, effectively increase the unfailing performance of equipment.

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 invention is not restricted 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.

Moreover, it will be appreciated 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 Using specification as an entirety, the technical solutions in each embodiment can also be properly combined, forms those skilled in the art It is appreciated that other embodiment.

Claims (8)

1. a kind of oxygen increasing equipment used for aquiculture, structure include equipment body (1), adjusting knob (2), control panel (3), Immersible pump (4), mixing chamber (5), diffuser (6), air inlet pipe (7), inlet automatic regulation device (8), it is characterised in that：

The adjusting knob (2) is movably connected on the front-end surface right part of equipment body (1), the control panel by keyway (3) the upper end face forefront of equipment body (1) is fixedly connected on, immersible pump (4) fixation is welded in equipment body (1) At internal cavities bottom right, the mixing chamber (5) is vertically connected at the left end surface of immersible pump (4) and it is located at equipment body (1) Inner bottom surface middle, the diffuser (6) is fixedly connected on the left end surface of mixing chamber (5) and it is interior with mixing chamber (5) Portion interpenetrates, and the air inlet pipe (7) is extended vertically through in the internal cavities middle of equipment body (1), and the air inlet is adjusted automatically Regulating device (8) is movably connected in the internal cavities of equipment body (1)；

The inlet automatic regulation device (8) is by forced induction control device (81), rotation wheel construction (82), pulley attachment device (83), slide control mechanism (84), gear drive (85), air inlet control structure (86) composition, the pressure sensitive control Device (81) is movably connected at the internal cavities upper left of equipment body (1), and the rotation wheel construction (82) is vertically connected at pressure The rear surface of power induction controller (81) and its be connected with the inside left surface of equipment body (1), pulley connection The left-half of device (83) is vertically connected at the right end face middle and lower part of air inlet pipe (7), and right half part, which is vertically connected at, to be set At under in the right surface in inside of standby main body (1), the inside that the slide control mechanism (84) is fixedly connected on equipment body (1) is right Surface middle, the gear drive (85) are movably connected on the left end surface of slide control mechanism (84), the air inlet Control structure (86) is movably connected on the most upper place of internal cavities of equipment body (1)；

The forced induction control device (81) is by pressure sensor (811), L-type fixed frame (812), signal converting controller (813), rotation axis (814), the first rotating wheel (815), rotation connection frame (816) is controlled to form, the pressure sensor (811) The most upper place in inside left surface of equipment body (1) is fixedly connected on, the L-type fixed frame (812) is vertically connected at equipment body (1) inside left surface middle, the signal converting controller (813) are fixedly connected on the left end table of L-type fixed frame (812) The most upper place in face and its be electrically connected between pressure sensor (811) by connecting line, it is described control rotation axis (814) vertical connection In the rear surface middle of signal converting controller (813) and its be electrically connected between signal converting controller (813), it is described The outer surface that first rotating wheel (815) activity is nested in control rotation axis (814) most descends place, the rotation connection frame (816) It is vertically connected at the most right place of rear surface of the first rotating wheel (815).

2. a kind of oxygen increasing equipment used for aquiculture according to claim 1, it is characterised in that：The rotation wheel construction (82) by the second rotating wheel (821), rotating wheel shaft (822), the 3rd rotating wheel (823), the 4th rotating wheel fixed frame (824), 4th rotating wheel shaft (825), the 4th rotating wheel (826), rotating roller (827) composition, the second rotating wheel (821) activity is even The rear surface of rotation connection frame (816) is connected to, the rotating wheel shaft (822) is vertically connected at the second rotating wheel (821) Rear surface middle, the outer surface that the 3rd rotating wheel (823) activity is nested in rotating wheel shaft (822) most descend place, The 4th rotating wheel fixed frame (824) is fixedly connected in the inside left surface of equipment body (1) at lower, and the described 4th rotates Wheel shaft (825) is vertically connected at the right end face middle of the 4th rotating wheel fixed frame (824), the 4th rotating wheel (826) activity is nested in the outer surface middle of the 4th rotating wheel shaft (825), and rotating roller (827) activity is nested in The most right place of outer surface of 4th rotating wheel shaft (825) and its be mechanically connected between the 4th rotating wheel (826).

3. a kind of oxygen increasing equipment used for aquiculture according to claim 1, it is characterised in that：The pulley attachment device (83) by first pulley fixed frame (831), first pulley (832), horizontal fixed frame (833), second pulley fixed frame (834), Second pulley (835), vertical rails (836) composition, the first pulley fixed frame (831) are vertically connected at equipment body (1) The right surface in inside in it is lower at, the first pulley (832) is movably connected on the left end surface of first pulley fixed frame (831), The transverse direction fixed frame (833) is vertically connected in the right end face of air inlet pipe (7) at lower, the second pulley fixed frame (834) the upper end face middle of horizontal fixed frame (833), the second pulley (835) are vertically connected at by precompressed bolt The upper end face of second pulley fixed frame (834) is movably connected on, the vertical rails (836) are fixedly connected on equipment body (1) the right surface middle in inside.

4. a kind of oxygen increasing equipment used for aquiculture according to claim 1, it is characterised in that：The slide control mechanism (84) it is made of sliding shoe (841), interior pulley (842), the frame that is slidably connected (843), transmission toothing (844), the sliding shoe (841) it is slidably connected in the sliding slot of vertical rails (836), the interior pulley (842) is movably connected on the interior of sliding shoe (841) In portion's cavity, the frame that is slidably connected (843) is fixedly connected on the left end surface of sliding shoe (841), the transmission toothing (844) uniformly it is equally spaced in the left end surface of the frame that is slidably connected (843).

5. a kind of oxygen increasing equipment used for aquiculture according to claim 1, it is characterised in that：The gear drive (85) by first gear (851), driven wheel (852), first rotation connection bar (853), rotation axis (854), pinion (855), Inside thread (856), gear teeth structure (857), the second rotation connection bar (858) form, first gear (851) flexible connection In the left end surface of transmission toothing (844), the driven wheel (852) is mechanically connected to the front-end surface of first gear (851) Middle and its between first gear (851) in concentric circles state, the inside thread (856) is uniformly equally spaced in first The front-end surface edge of gear (851), the pinion (855) be movably connected on the front-end surface of first gear (851) and It is flexibly connected by inside thread (856) with first gear (851), is led between the driven wheel (852), pinion (855) It crosses the first rotation connection bar (853) to be flexibly connected, described first is rotatablely connected between bar (853) and driven wheel (852), first turn It is dynamic to be all connected between connecting rod (853) and pinion (855) by rotation axis (854), the second rotation connection bar (858) Be movably connected on by rotation axis (854) at the front-end surface upper right of pinion (855) and its to pinion (855) upper right side Extension, the gear teeth structure (857) are uniformly equally spaced in the outer surface edge of first gear (851), pinion (855) Place.

6. a kind of oxygen increasing equipment used for aquiculture according to claim 1, it is characterised in that：The air inlet control structure (86) by second gear fixed frame (861), second gear (862), second gear output shaft (863), the 3rd gear (864), Three gear output shafts (865), air intake control valve body (866), air admission hole (867), engaging tooth (868) composition, the second gear Fixed frame (861) is vertically connected at the right surface top in inside of equipment body (1), the second gear by precompressed bolt (862) the left end surface of second gear fixed frame (861), second gear output shaft (863) mechanical connection are movably connected on In the front-end surface middle of second gear (862) and its between second gear (862) in concentric circles state, the 3rd tooth Wheel (864) is movably connected at the left end of second gear (862), and the 3rd gear output shaft (865) is mechanically connected to the 3rd The front-end surface middle of gear (864) and its between the 3rd gear (864) in concentric circles state, the air intake control valve body (866) extend transversely through in the most upper place in the inside of air inlet pipe (7), the air admission hole (867) is uniformly equidistantly embedded in air intake control valve The front-end surface of body (866), the engaging tooth (868) are uniformly equally spaced in the rear surface of air intake control valve body (866).

7. a kind of oxygen increasing equipment used for aquiculture according to claim 2, it is characterised in that：3rd rotating wheel (823), all uniform equidistant arrangement of outer surface of the 4th rotating wheel (826) has external screw thread, the 3rd rotating wheel (823), Four rotating wheels (826) are flexibly connected by the engagement between external screw thread, and the outer surface of the rotating roller (827) closely twines Connection rope is wound with, the outer surface activity of the first pulley (832), second pulley (835), interior pulley (842) is nested in There is connection rope, the rotating roller (827), first pulley (832), second pulley (835), interior pulley pass through company between (842) Splicing rope is flexibly connected, and the first gear (851), the frame that is slidably connected (843) pass through gear teeth structure (857), transmission toothing (844) the engagement flexible connection between, the pinion (855), first gear (851) pass through gear teeth structure (857), interior Engagement flexible connection between side screw thread (856), the pinion (855), second gear (862) pass through second company of rotation Extension bar (858) is flexibly connected, and the second gear output shaft (863), the outer surface of the 3rd gear output shaft (865) are all movable Driving belt has been nested in, has been flexibly connected between the second gear (862), the 3rd gear (864) by driving belt, it is described 3rd gear (864), air intake control valve body (866) are lived by the engagement between gear teeth structure (857), engaging tooth (868) Dynamic connection.

8. a kind of oxygen increasing equipment used for aquiculture according to claim 1, it is characterised in that：The pressure sensor (811) diving depth of equipment is sensed and transmits signals to signal converting controller (813), the signal conversion control Device (813) processed controlled when depth becomes larger its control rotation axis (814) rotated, first rotating wheel (815) therewith into Row rotates and rotation connection frame (816) is driven to be rotated, and second rotating wheel (821) is in the biography of rotation connection frame (816) Pass it is lower rotated and so that the 3rd rotating wheel (823) is rotated under the drive of rotating wheel shaft (822), so as to described the Four rotating wheels (826) are rotated under the engagement between external screw thread, and the rotating roller (827) is rotated and drawn therewith Move the connection rope of its outer surface, the first pulley (832), second pulley (835), interior pulley (842) outer surface Connection rope is pulled successively therewith, and then the sliding shoe (841), the frame that is slidably connected (843) are pulled down and vertically The sliding slot slide downward of slide (836), the first gear (851) is between gear teeth structure (857), transmission toothing (844) Engagement under rotated, engagement of the pinion (855) between gear teeth structure (857), inside thread (856) is made It is driven under around driven wheel (852), the second gear (862) carries out under the drive of the second rotation connection bar (858) Transmission, the 3rd gear (864) are driven therewith under the action of driving belt, then the air intake control valve body (866) moved horizontally to the right under the engagement between gear teeth structure (857), engaging tooth (868) and cause more air inlets Hole (867) mutually correlates with air inlet pipe (7).