CN115078671B - On-line monitoring system for weever greenhouse cultivation - Google Patents

On-line monitoring system for weever greenhouse cultivation Download PDF

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Publication number
CN115078671B
CN115078671B CN202210702465.6A CN202210702465A CN115078671B CN 115078671 B CN115078671 B CN 115078671B CN 202210702465 A CN202210702465 A CN 202210702465A CN 115078671 B CN115078671 B CN 115078671B
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push rod
groove
water
plate
weever
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CN115078671A (en
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刘保银
崔慧敏
刘群
王军
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Liu Baoyin Family Farm Huaguan Town Guangrao County
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Liu Baoyin Family Farm Huaguan Town Guangrao County
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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N33/00Investigating or analysing materials by specific methods not covered by groups G01N1/00 - G01N31/00
    • G01N33/18Water
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N1/00Sampling; Preparing specimens for investigation
    • G01N1/02Devices for withdrawing samples
    • G01N1/10Devices for withdrawing samples in the liquid or fluent state
    • G01N1/14Suction devices, e.g. pumps; Ejector devices
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02ATECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
    • Y02A40/00Adaptation technologies in agriculture, forestry, livestock or agroalimentary production
    • Y02A40/80Adaptation technologies in agriculture, forestry, livestock or agroalimentary production in fisheries management
    • Y02A40/81Aquaculture, e.g. of fish

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  • Life Sciences & Earth Sciences (AREA)
  • Health & Medical Sciences (AREA)
  • Chemical & Material Sciences (AREA)
  • General Health & Medical Sciences (AREA)
  • Physics & Mathematics (AREA)
  • Analytical Chemistry (AREA)
  • Biochemistry (AREA)
  • General Physics & Mathematics (AREA)
  • Immunology (AREA)
  • Pathology (AREA)
  • Food Science & Technology (AREA)
  • Medicinal Chemistry (AREA)
  • Engineering & Computer Science (AREA)
  • Hydrology & Water Resources (AREA)
  • Farming Of Fish And Shellfish (AREA)

Abstract

The invention belongs to the technical field of online monitoring, and particularly provides an online monitoring system for weever greenhouse culture. This on-line monitoring system includes electric putter, is connected with adapting unit on the electric putter, installs pumping device on the adapting unit, and pumping device is used for extracting the pond water, installs the protective housing on the pumping device, and the inside of protective housing is provided with the circulation groove, and the inside of protective housing still installs the detector that is used for detecting quality of water, and the inside of protective housing still installs first single valve. According to the invention, the electric push rod is used for pushing the water storage tank to realize the monitoring of the water storage tank on each level of pool water in the electric push rod, then pool water at the detector is discharged through the first single valve, and pool water collected for many times is extruded to the detector through the piston plate to be monitored, so that the detector can uniformly obtain the value of pool water in the fishpond, and a breeder can conveniently adopt a proper range to improve water quality.

Description

On-line monitoring system for weever greenhouse cultivation
Technical Field
The invention relates to the technical field of online monitoring, in particular to an online monitoring system for weever greenhouse culture
Background
With the rapid development of social economy, the weever is also called a jewfish and a seven-star weever, belongs to the class of weever and the lipid department in taxonomy, and is bred and grows on coastal, and is different from the California weever and the Osmanthus fragrans weever which grow in fresh water, so the weever can grow in fresh water, but according to the natural habit, the breeding condition is better in salty and fresh water areas where sea tides arrive, fish farm and reclamation areas at river and sea ports are optimal, the breeding growth speed in the areas with too high salinity is slow, in addition, the breeding water quality is required to be fresh and sufficient in dissolved oxygen, and for breeding the weever in high density, a greenhouse is generally adopted for breeding, but because the weever is more critical for the water quality, the online monitoring system team water quality monitoring is generally installed.
The weever can be cultivated in high density and high yield through the greenhouse, but the bacteria, the temperature and the oxygen content in water quality are required to be paid attention to when the weever is cultivated in the greenhouse, and then an online monitoring system is adopted for the common weever greenhouse cultivation, so that the weever can be cultivated in the greenhouseThe water quality is checked remotely from time to time, but the existing weever greenhouse culture online monitoring system has certain limitation, firstly, because weever is cultured in a greenhouse pond, pond water in the greenhouse pond is dead water, pond water cannot flow automatically, so that when a problem occurs in water quality in a certain place in the greenhouse pond, the existing online monitoring system is fixedly installed, the problem pond water can be continuously spread and spread, then after the problem is monitored at the monitoring position of the existing online monitoring system, later weever is found, the recovery possibility of the weever in the greenhouse pond is low, serious culture death is caused, secondly, because the existing online monitoring system is fixed in the detection position, the temperature, the water pressure, the oxygen content and the like of each level of pond water in the greenhouse pond are the same, the monitored data of the online monitoring system are inaccurate, thirdly, the existing online monitoring system only monitors the water quality in a certain time period and the same area, and the water quality cannot be monitored comprehensively for a long time
Disclosure of Invention
The invention provides an online weever greenhouse culture monitoring system, which has the advantages of large monitoring area and high monitoring accuracy, and solves the problems that the existing online monitoring system is fixedly installed, so that the pool water with problems can be continuously spread and spread, later, the possibility of weever rehabilitation in a greenhouse pool is low after the existing online monitoring system monitors the problems, serious culture death is caused, the data monitored by the online monitoring system is inaccurate, and the water quality cannot be monitored comprehensively for a long time.
The invention provides the following technical scheme: the utility model provides a weever greenhouse is bred on-line monitoring system, includes electric putter, is connected with adapting unit on the electric putter, installs pumping device on the adapting unit, pumping device is used for extracting the pond water, installs the protective housing on the pumping device, and the inside of protective housing is provided with circulation groove one, and the inside of protective housing still installs the detector that is used for detecting water quality, and the inside of protective housing still installs first single valve; the water pumping device comprises a water storage tank, a second circulation tank is arranged in the water storage tank, a push rod is connected to the second circulation tank in a sliding manner, a piston plate matched with the second circulation tank is connected to the push rod, the piston plate is used for pumping pool water to the detector, a square groove communicated with the second circulation tank is further formed in the water storage tank, a round groove communicated with the second circulation tank is further formed in the water storage tank, the round groove is communicated with the second circulation tank, a circular ring is connected to the push rod, and stirring blades are arranged on the circular ring and used for stirring pool water in the round groove.
Preferably, a square box is arranged in the water storage tank, a push rod penetrates through the square box and the water storage tank, a spiral groove is formed in the push rod, a stop block is arranged on the inner wall of the square box, and the stop block is in sliding connection with the inside of the spiral groove; the push rod is provided with a bar-shaped groove, the ring is provided with an extending block, the extending block is slidably connected in the bar-shaped groove, and the ring is connected in the circular groove with stirring She Huadong.
Preferably, the inside symmetry of storage water tank installs the minor axis, and the surface cover of minor axis is equipped with the closing plate, and two closing plates are used for sealed circulation groove two, and the push rod runs through the closing plate, still installs first torque spring on the minor axis, and first torque spring is connected with the closing plate, and first torque spring is used for driving the closing plate and resets, and the inside of protective housing still installs the second single valve, and the second single valve is located between circulation groove one and the circular slot.
Preferably, the inside of the water storage tank is rotationally connected with a bearing ring, a spring is arranged on the bearing ring and connected with the push rod, and the spring is used for driving the push rod to reset.
Preferably, the electric putter is last still to install the connecting plate, is connected with processing apparatus on the connecting plate, and processing apparatus is used for driving the push rod to slide, and processing apparatus installs the swash plate including installing the riser at the connecting plate lower extreme on the riser, installs a plurality of circular arc strip on the swash plate, is provided with the arc surface on the push rod, and the arc surface is used for contradicting on the circular arc strip, is provided with the spacing groove between every two circular arc strips, and the push rod is used for sliding connection in the inside of spacing groove.
Preferably, the connecting part comprises an L-shaped plate connected to the electric push rod, the inner wall of the L-shaped plate is rotationally connected with a rotating shaft, a round sleeve is arranged on the rotating shaft, a welding plate is arranged at the lower end of the round sleeve, and the welding plate is connected with the water storage tank.
Preferably, the rotating shaft is also provided with a gear, and the vertical plate is also provided with a rack for driving the gear to swing.
Preferably, the inner wall of the L-shaped plate is also provided with a second torque spring, and the second torque spring is connected with the round sleeve.
The invention has the following beneficial effects:
1. this online monitoring system is bred to weever big-arch shelter promotes the storage water tank through electric putter so that realize the monitoring of storage water tank to each level of the inside pond water of electric putter, later discharges the pond water of detector department through first single valve, extrudees the pond water of collecting many times to detector department monitoring through the piston board to this numerical value that realizes inside pond water of this detector can be even obtains the pond of breeding, makes things convenient for the breeder to take appropriate scope to improve quality of water.
2. This online monitoring system is bred to weever big-arch shelter, through rotatory push rod, suitable push rod drives ring and stirring leaf rotatory, and then let the rotatory pond water that stirs the circular slot inside of stirring leaf, with this pond water ability homogeneous mixing that lets batch get into the circular slot inside, with this more accurate that makes things convenient for the detector to monitor, utilize the piston plate to slide to the right side, extrude pond water seal board to rotate to the right side, make pond water ability get into the inside of circular slot, and can drive first torque spring rotatory when the closing plate is rotatory, when the piston plate is not being applied force to the closing plate, improve first torque spring and drive the closing plate and reset, thereby realize that the liquid that gets into the circular slot inside can not flow back into the fish pond, with this monitoring accuracy that improves the detector.
3. This weever big-arch shelter is bred on-line monitoring system meshes with the rack through the gear for the rack can drive the gear rotation, and the gear can drive rotation axis, circle cover, welded plate and storage water tank swing, and then lets the storage water tank remove other positions and carry out the extraction pond water monitoring.
Drawings
Fig. 1 is a schematic diagram of the overall structure of the present invention.
Fig. 2 is a schematic structural diagram of the electric push rod and the pumping device of the invention.
Fig. 3 is a schematic view of the partial structure at a in fig. 2 according to the present invention.
Fig. 4 is a schematic view of a partial structure of the present invention at B of fig. 3.
FIG. 5 is a schematic view of the processing apparatus and the connecting member of the present invention.
Fig. 6 is a schematic view of the partial structure of fig. 5 at C according to the present invention.
In the figure: 1. a fish pond; 2. an electric push rod; 3. a processing device; 4. a water pumping device; 6. a connecting member; 7. a bearing ring; 8. a connecting plate; 10. a first single valve; 11. a protective shell; 12. a detector; 13. a first circulation tank; 14. a second single valve; 41. a water storage tank; 42. a square groove; 43. a second circulation tank; 44. a push rod; 45. a piston plate; 46. a spiral groove; 47. a stop block; 48. a circular groove; 49. a spring; 50. stirring the leaves; 51. a circular ring; 52. a bar-shaped groove; 53. a sealing plate; 54. a protruding block; 55. a short shaft; 56. a first torque spring; 57. a square box; 31. a riser; 32. a sloping plate; 33. arc strips; 34. an arc surface; 35. a limit groove; 36. a rack; 61. an L-shaped plate; 62. a round sleeve; 63. a rotation shaft; 64. a gear; 65. a second torque spring; 66. and (5) welding a plate.
Detailed Description
The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.
Example 1
Referring to fig. 1-5, the online monitoring system for weever greenhouse cultivation comprises an electric push rod 2, wherein a connecting part 6 is connected to the electric push rod 2, a water pumping device 4 is installed on the connecting part 6, the water pumping device 4 is used for pumping pool water, a protective shell 11 is installed on the water pumping device 4, a first circulating groove 13 is formed in the protective shell 11, a detector 12 for detecting water quality is also installed in the protective shell 11, and a first single valve 10 is also installed in the protective shell 11;
the pumping device 4 comprises a water storage tank 41, a second circulation groove 43 is formed in the water storage tank 41, a push rod 44 is slidably connected to the second circulation groove 43, a piston plate 45 matched with the second circulation groove 43 is connected to the push rod 44, the piston plate 45 is used for pumping pool water to the detector 12, and a square groove 42 communicated with the second circulation groove 43 is further formed in the water storage tank 41.
The weever can realize high-density and high-yield cultivation through the greenhouse, but the weever needs to pay attention to bacteria, temperature and oxygen content in water quality when the weever is cultivated in the greenhouse, and then the general weever greenhouse cultivation adopts an online monitoring system, and water quality can be checked remotely and constantly;
multidirectional monitoring: specifically, according to fig. 1, when the condition of temperature, oxygen content, bacteria and the like of pool water in the fishpond 1 needs to be monitored by installing the electric push rod 2 on the inner wall of the fishpond 1, according to fig. 2, pushing the connecting part 6 and the water storage tank 41 by the electric push rod 2 to descend into the fishpond 1, then pushing the push rod 44 to slide leftwards so that the piston plate 45 moves from the second circulation tank 43 to the square tank 42, according to fig. 2, because the size of the square tank 42 is larger than that of the second circulation tank 43, pool water flows into the second circulation tank 43 through a gap between the square tank 42 and the piston plate 45, then pulling the push rod 44 to slide rightwards so that the piston plate 45 is slidably connected in the second circulation tank 43 again, and because the piston plate 45 is matched with the second circulation tank 43, the piston plate 45 not only seals the left side of the second circulation tank 43, but also pushes pool water on the right side of the piston plate 45 to quickly contact with the detector 12, thereby realizing efficient monitoring, and then pushing the electric push rod 2 to push the push rod 41 to realize the monitoring of each level of pool water in the water storage tank 2 by the electric push rod 41 to drain water from the first detection tank 10; for example, remote online real-time monitoring may be accomplished by a remote terminal in wireless electrical communication with monitor 12.
And (3) extracting and monitoring for a plurality of times: the piston plate 45 is pushed to move back and forth to the square groove 42 and the second circulating groove 43 at a longer interval time, so that pool water in the fish pond 1 can enter the water storage tank 41 in batches, after the pool water in the water storage tank 41 is accumulated to a certain amount, the piston plate 45 is slid to the right again, and the pool water collected for many times is extruded to the detector 12 through the piston plate 45 for monitoring, so that the detector 12 can uniformly obtain the value of the pool water in the fish pond 1, and a proper range can be conveniently adopted by a breeder to improve the water quality.
Driving sliding: according to fig. 5, when the electric push rod 2 pushes the water storage tank 41 to slide downwards, the push rod 44 penetrating the water storage tank 41 will collide with the arc surface 34 and the push rod 44, so that the arc surface 33 will collide with the push rod 44 to slide leftwards, the push rod 44 pushes the piston plate 45 to slide to the square groove 42, pool water enters the water storage tank 41, and then when the arc surface 33 no longer collides with the push rod 44, the push rod 44 is pulled to slide rightwards by the spring 49.
Example 2
The present embodiment is an improvement based on embodiment 1, specifically referring to fig. 1-5, a circular groove 48 is further provided in the water storage tank 41 and is communicated with the other end of the second circulation groove 43, the circular groove 48 is communicated with the first circulation groove 13, a circular ring 51 is connected to the push rod 44, a stirring blade 50 is mounted on the circular ring 51, and the stirring blade 50 is used for stirring pool water in the circular groove 48.
Stirring and mixing: according to fig. 2 and 3, the pool water entering the second circulation tank 43 flows into the circular tank 48, and then the push rod 44 is rotatably connected with the piston plate 45, when the push rod 44 slides to the right, the push rod 44 is rotated, so that the appropriate push rod 44 drives the circular ring 51 and the stirring blade 50 to rotate, and the stirring blade 50 rotates to stir the pool water in the circular tank 48, so that the pool water entering the circular tank 48 in batches can be uniformly mixed, and the detector 12 can monitor more accurately;
the square box 57 is arranged in the water storage tank 41, the push rod 44 penetrates through the square box 57 and the water storage tank 41, the spiral groove 46 is formed in the push rod 44, the stop block 47 is arranged on the inner wall of the square box 57, and the stop block 47 is in sliding connection with the inside of the spiral groove 46;
the push rod 44 is provided with a bar-shaped groove 52, the ring 51 is provided with an extending block 54, the extending block 54 is slidably connected inside the bar-shaped groove 52, and the ring 51 and the stirring blade 50 are slidably connected inside the circular groove 48.
The electric push rod 2 is further provided with a connecting plate 8, the connecting plate 8 is connected with a processing device 3, the processing device 3 is used for driving a push rod 44 to slide, the processing device 3 comprises a vertical plate 31 arranged at the lower end of the connecting plate 8, a sloping plate 32 is arranged on the vertical plate 31, a plurality of arc strips 33 are arranged on the sloping plate 32, an arc surface 34 is arranged on the push rod 44, the arc surface 34 is used for abutting against the arc strips 33, a limiting groove 35 is arranged between every two arc strips 33, and the push rod 44 is used for being in sliding connection with the inside of the limiting groove 35.
And (3) driving: according to the embodiment shown in fig. 2 and 3, a spiral groove 46 is provided on the push rod 44, and when the push rod 44 slides to the right, a stop block 47 slidably connected to the inside of the spiral groove 46 presses the push rod 44 to rotate, so that the push rod 44 drives a circular ring 51 to rotate, and the circular ring 51 drives a stirring blade 50 to stir pool water in the circular groove 48;
it should be noted that, according to fig. 3, since the push rod 44 needs to slide to the right, in order to enable the stirring blade 50 to stir the inside of the circular groove 48, a bar-shaped groove 52 is provided on the push rod 44, and an extending block 54 on the ring 51 is slidably connected to the inside of the bar-shaped groove 52, and when one end of the stirring blade 50 abuts against the inner wall of the water storage tank 41, the extending block 54 is slidably connected to the inside of the bar-shaped groove 52, and the push rod 44 drives the ring 51 and the stirring blade 50 to rotate through the extending block 54.
Example 3
In this embodiment, referring to fig. 1-5, a short shaft 55 is symmetrically installed in the water tank 41, a sealing plate 53 is sleeved on the outer surface of the short shaft 55, two sealing plates 53 are used for sealing the second circulation groove 43, the push rod 44 penetrates through the sealing plate 53, a first torque spring 56 is further installed on the short shaft 55, the first torque spring 56 is connected with the sealing plate 53, the first torque spring 56 is used for driving the sealing plate 53 to reset, a second single valve 14 is further installed in the protective housing 11, and the second single valve 14 is located between the first circulation groove 13 and the circular groove 48.
Avoiding reflux: according to the embodiment 1, the piston plate 45 is pushed to move back and forth to the square groove 42 and the second circulation groove 43 at a longer interval time, so that the pool water in the fish pond 1 can enter the interior of the water storage tank 41 in batches, the detector 12 can uniformly obtain the value of the pool water in the fish pond 1, but when the second piston plate 45 is slidably connected to the interior of the square groove 42, a gap is formed between the square groove 42 and the piston plate 45, the pool water on the outer surface of the water storage tank 41 can enter the interior of the water storage tank 41, the pool water in the interior of the water storage tank 41 can possibly flow back into the interior of the fish pond 1, so that the monitoring value of the detector 12 is influenced, therefore, in order to improve the monitoring accuracy, a sealing plate 53 is rotated in the interior of the water storage tank 41, and according to the embodiment 3, after the pool water enters the second circulation groove 43 through the gap between the square groove 42 and the piston plate 45, the pool water sealing plate 53 is rotated to the right side by the sliding of the piston plate 45, so that the pool water enters the interior of the round groove 48, and the sealing plate 53 can drive the first spring 56 to rotate, and the torque of the sealing plate 53 can not be driven to move into the round groove 48, and the reverse torque can be accurately detected when the sealing plate 53 is driven into the interior of the round groove 12, and the sealing plate 53 is not to move the sealing plate 53 to move back and the sealing plate is detected, thereby the torque is accurately monitored, and the torque is not to move the sealing plate is detected in the interior in the reverse torque monitoring the interior of the pool reverse torque is detected;
by installing the second single valve 14 between the first circulation tank 13 and the circular tank 48, it is ensured that more pool water can be accumulated in the circular tank 48, the accumulated pool water does not overflow the first circulation tank 13, the inside of the circular tank 48 is fully stirred by the stirring blade 50 only after the pool water in the circular tank 48 is filled, and then the water pressure in the circular tank 48 is larger than that of the second single valve 14 under the rightward extrusion of the piston plate 45, so that the pool water in the circular tank 48 flows into the first circulation tank 13, and the detector 12 is monitored.
Example 4
This embodiment is an improvement based on embodiment 3, and in particular, referring to fig. 1-5, a bearing ring 7 is rotatably connected to the interior of the water tank 41, a spring 49 is mounted on the bearing ring 7, the spring 49 is connected to the push rod 44, and the spring 49 is used for driving the push rod 44 to return.
And (3) reversely rotating: according to the illustration shown in fig. 2, the bearing ring 7 is rotatably connected in the water storage tank 41, and the spring 49 on the bearing ring 7 is connected with the push rod 44, when the push rod 44 slides to the right, the push rod 44 can press the spring 49, then the spring 49 releases the spring force, the push rod 44 is pushed by the spring 49 to reset, so that the push rod 44 slides to the left, and then the stop block 47 is slidably connected in the spiral groove 46 again, so that the push rod 44 drives the circular ring 51 and the stirring blade 50 again to stir the pool water in the circular groove 48, the pool water in the circular groove 48 is further uniformly mixed, the monitoring accuracy of the detector 12 is improved, and a breeder can conveniently adopt a proper range to improve the water quality;
it should be noted that, since the push rod 44 rotates, in order to ensure that the spring 49 is compressed and retreated to reset the push rod 44, the push rod 44 is rotatably connected to the water storage tank 41 through the bearing ring 7, so that when the push rod 44 rotates, the push rod 44 drives the spring 49 and the bearing ring 7 to rotate, and the spring 49 is not compressed by the push rod 44.
Example 5
The present embodiment is an improvement made on the basis of embodiment 3, specifically referring to fig. 1-6, the connecting component 6 includes an L-shaped plate 61 connected to the electric putter 2, an inner wall of the L-shaped plate 61 is rotatably connected to a rotating shaft 63, a circular sleeve 62 is mounted on the rotating shaft 63, a welding plate 66 is mounted at a lower end of the circular sleeve 62, and the welding plate 66 is connected to the water tank 41;
the rotating shaft 63 is also provided with a gear 64, the vertical plate 31 is also provided with a rack 36, and the rack 36 is used for driving the gear 64 to swing.
Large area monitoring: according to fig. 5 and 6, when the electric push rod 2 pushes the L-shaped plate 61 and the welding plate 66 to slide downwards, the gear 64 is meshed with the rack 36, so that the rack 36 drives the gear 64 to rotate, the gear 64 drives the rotating shaft 63, the round sleeve 62, the welding plate 66 and the water storage tank 41 to swing, and the water storage tank 41 can be moved to other positions for pumping pool water monitoring;
it should be noted that three racks 36 are sequentially installed on the vertical plate 31 so that the water storage tank 41 can perform swing extraction tank water monitoring at different depths inside the aquarium 1.
Example 6
This embodiment is an improvement based on embodiment 5, and in particular, referring to fig. 1-6, a second torsion spring 65 is further installed on the inner wall of the l-shaped plate 61, and the second torsion spring 65 is connected to the circular sleeve 62.
And (3) reciprocating swing: according to fig. 6, by installing the second torque spring 65 on the L-shaped plate 61, when the gear 64 drives the rotation shaft 63 to rotate, the rotation shaft 63 also drives the second torque spring 65 to rotate, so that the second torque spring 65 can rotate and shrink, after the gear second torque spring 65 is not meshed with the rack 36, the force compressed by rotation is released through the second torque spring 65, so that the rotation shaft 63 and the circular sleeve 62 are driven to rotate reversely through the second torque spring 65, and the water storage tank 41 can swing reciprocally, and the monitoring range of the water storage tank 41 is further enlarged.
It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.
The foregoing is merely a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several improvements and modifications can be made without departing from the technical principle of the present invention, and these improvements and modifications should also be considered as the scope of the present invention

Claims (8)

1. The utility model provides a weever big-arch shelter is bred on-line monitoring system, includes electric putter (2), its characterized in that: the electric push rod (2) is connected with a connecting component (6), the connecting component (6) is provided with a pumping device (4), the pumping device (4) is used for pumping pool water, the pumping device (4) is provided with a protective shell (11), the inside of the protective shell (11) is provided with a first circulating groove (13), the inside of the protective shell (11) is also provided with a detector (12) for detecting water quality, and the inside of the protective shell (11) is also provided with a first one-way valve (10); the pumping device (4) comprises a water storage tank (41), a second circulating groove (43) is formed in the water storage tank (41), a push rod (44) is connected to the second circulating groove (43) in a sliding mode, a piston plate (45) matched with the second circulating groove (43) is connected to the push rod (44), the piston plate (45) is used for pumping pool water to the detector (12), a square groove (42) communicated with the second circulating groove (43) is further formed in the water storage tank (41), a round groove (48) communicated with the other end of the second circulating groove (43) is further formed in the water storage tank (41), the round groove (48) is communicated with the first circulating groove (13), a circular ring (51) is connected to the push rod (44), and stirring blades (50) are arranged on the circular ring (51) and used for stirring pool water in the round groove (48).
2. The weever greenhouse culture on-line monitoring system according to claim 1, wherein: a square box (57) is arranged in the water storage tank (41), the push rod (44) penetrates through the square box (57) and the water storage tank (41), a spiral groove (46) is formed in the push rod (44), a stop block (47) is arranged on the inner wall of the square box (57), and the stop block (47) is slidably connected in the spiral groove (46); the push rod (44) is provided with a strip-shaped groove (52), the ring (51) is provided with an extending block (54), the extending block (54) is slidably connected in the strip-shaped groove (52), and the ring (51) and the stirring blade (50) are slidably connected in the circular groove (48).
3. The weever greenhouse culture on-line monitoring system according to claim 2, wherein: the inside symmetry of storage water tank (41) is installed minor axis (55), the surface cover of minor axis (55) is equipped with closing plate (53), two closing plates (53) are used for sealed circulation groove two (43), push rod (44) run through closing plate (53), still install first torque spring (56) on minor axis (55), first torque spring (56) are connected with closing plate (53), first torque spring (56) are used for driving closing plate (53) and restore to the throne, second check valve (14) are still installed to the inside of protective housing (11), second single valve (14) are located between circulation groove one (13) and circular slot (48).
4. The weever greenhouse culture on-line monitoring system according to claim 3, wherein: the inside rotation of storage water tank (41) is connected with bearing ring (7), installs spring (49) on bearing ring (7), and spring (49) are connected with push rod (44), and spring (49) are used for driving push rod (44) to reset.
5. The weever greenhouse culture on-line monitoring system according to claim 4, wherein: still install connecting plate (8) on electric putter (2), be connected with processing apparatus (3) on connecting plate (8), processing apparatus (3) are used for driving push rod (44) and slide, processing apparatus (3) are including installing riser (31) at connecting plate (8) lower extreme, install swash plate (32) on riser (31), install a plurality of circular arc strip (33) on swash plate (32), be provided with arc surface (34) on push rod (44), arc surface (34) are used for contradicting on circular arc strip (33), be provided with spacing groove (35) between every two circular arc strip (33), push rod (44) are used for sliding connection in the inside of spacing groove (35).
6. The weever greenhouse culture on-line monitoring system according to claim 5, wherein: the connecting part (6) comprises an L-shaped plate (61) connected to the electric push rod (2), the inner wall of the L-shaped plate (61) is rotatably connected with a rotating shaft (63), a round sleeve (62) is arranged on the rotating shaft (63), a welding plate (66) is arranged at the lower end of the round sleeve (62), and the welding plate (66) is connected with the water storage tank (41).
7. The weever greenhouse culture on-line monitoring system according to claim 6, wherein: the rotating shaft (63) is also provided with a gear (64), the vertical plate (31) is also provided with a rack (36), and the rack (36) is used for driving the gear (64) to swing.
8. The weever greenhouse culture on-line monitoring system according to claim 7, wherein: the inner wall of the L-shaped plate (61) is also provided with a second torque spring (65), and the second torque spring (65) is connected with the round sleeve (62).
CN202210702465.6A 2022-06-21 2022-06-21 On-line monitoring system for weever greenhouse cultivation Active CN115078671B (en)

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