CN217443328U - Monitoring system for fish pond culture - Google Patents

Abstract

The utility model provides a monitored control system for pond is bred, be in including floating body, controller and fixed mounting float the casing at body top and set up the watch-dog of casing top, the bottom fixed mounting of casing has the detection shell, the inner wall top of detecting the shell is fixed mounting respectively has dissolved oxygen sensor and ammonia detector. During the use, put this device in the pond and move, make and detect the shell and contact with water, be used for detecting oxygen content and ammonia content in the pond through dissolved oxygen sensor and ammonia detector in detecting the shell, when oxygen content is less than the setting numerical value, reach the controller with information transfer, the controller control oxygenation pump starts, in taking external air into the oxygenation pump, and carry the air to the oxygen intraductal through the pipeline, carry the pond with oxygen in through the oxygen nozzle, thereby realize the effect of pond oxygenation.

Description

Monitoring system for pond culture

Technical Field

The utility model relates to a fishery breeding technology field, in particular to monitored control system is bred in pond.

Background

Fishery culture, also called aquaculture, refers to the cultivation of fish or various seafood in artificial fish farms on the bank for eating, according to the different quality of culture water, can be divided into three categories, fresh water cultivation, salt water cultivation and sea surface cultivation, with the southwest coastal distribution being the most dense, the production value being the time of pelagic fishery, the cultivation of common scagliola, oyster and eel;

nowadays, the automation requirement of fishery cultivation is higher and higher, and current pond cultivation monitored control system adopts the mode of single-point monitoring more, along with the expansion of breed scope, just need a large amount of detectors distribution in the pond in the aspect of the water quality testing, and the position of detector is comparatively fixed, and detection range has certain limitation to lead to breeding cost increase, be difficult to adapt to present fishery cultivation, for this reason, propose pond cultivation and use monitored control system.

SUMMERY OF THE UTILITY MODEL

In view of this, the embodiment of the present invention is intended to provide a monitoring system for fish pond cultivation to solve or alleviate the technical problems existing in the prior art, and at least provide a useful choice.

The embodiment of the utility model provides a technical scheme is so realized: the monitoring system for fish pond culture comprises a floating body, a controller, a shell fixedly mounted at the top of the floating body and a monitor arranged above the shell, wherein a detection shell is fixedly mounted at the bottom of the shell, a dissolved oxygen sensor and an ammonia gas detector are fixedly mounted at the top of the inner wall of the detection shell respectively, and the ammonia gas detector is positioned on one side of the dissolved oxygen sensor; an oxygen increasing pump is fixedly installed inside the shell, the output end of the oxygen increasing pump penetrates through the floating body through a pipeline and is fixedly connected with a plurality of oxygen pipes, one ends of the oxygen pipes are fixedly connected with oxygen nozzles, and the input end of the oxygen increasing pump extends to the outside of the shell through the pipeline; a water suction pump is fixedly installed inside the shell and on one side of the oxygenation pump, the input end of the water suction pump extends into the fishpond through a pipeline, and the output end of the water suction pump penetrates through the shell through the pipeline and is fixedly connected with an atomizing nozzle; the controller respectively with dissolved oxygen sensor, ammonia detector, oxygenation pump and suction pump electric connection, the inside of casing is provided with and is used for removing the moving mechanism of the body floats.

Preferably, the following components: the moving mechanism comprises a first motor and a first bevel gear, the first motor is fixedly mounted inside the shell and close to one side of the shell, the first bevel gear is fixedly mounted at the output end of the first motor, the moving mechanism further comprises a rotating rod, a second bevel gear and a propeller, the rotating rod is connected to the bottom of the floating body through a connecting rod, the rotating rod is fixedly mounted at the inner ring of the bearing, the second bevel gear is fixedly connected to one end of the rotating rod, and the propeller is fixedly connected to the other end of the rotating rod.

Preferably: the casing is inside and be located one side fixed mounting of first motor has the battery, the top fixed mounting of casing has solar panel, solar panel with battery electric connection, the battery respectively with dissolved oxygen sensor, ammonia detector, oxygenation pump, suction pump and first motor electric connection.

Preferably: the utility model discloses a lead screw, including casing, first motor, second motor, output fixedly connected with lead screw, the top of lead screw is passed the casing rotates and is connected with the dog, the driven lever is installed at the top of casing, the driven lever is located the both sides of lead screw, the top of driven lever with the bottom fixed connection of dog, the lateral wall threaded connection of lead screw has the slide, the slide pass through the sleeve pipe with the driven lever sliding fit is connected, the slide with watch-dog fixed connection.

The embodiment of the utility model provides a owing to adopt above technical scheme, it has following advantage:

1. when the device is used, the device is placed in a fish pond and moved, so that the detection shell is contacted with water, the dissolved oxygen sensor and the ammonia gas detector in the detection shell are used for detecting the oxygen content and the ammonia gas content in the fish pond, when the oxygen gas content is lower than a set value, information is transmitted to the controller, the controller controls the oxygen increasing pump to be started, external air is pumped into the oxygen increasing pump, air is conveyed into the oxygen pipe through a pipeline, oxygen is conveyed into the fish pond through the oxygen nozzle, so that the oxygen increasing effect of the fish pond is realized, the oxygen content in the fish pond is improved, when the ammonia gas detector detects that the ammonia gas content in the fish pond exceeds a set index, the information is transmitted to the controller, the controller controls the water pumping pump to be started, water in the fish pond is pumped out, water is atomized and sprayed outside through the atomizing nozzle, water mist is mixed with the air, and the air is driven to be re-blended into the water, thereby realize reducing the purpose of ammonia content, when having improved the activity of pond water, also dissolved the ammonia, effectively reduced ammonia and other harmful gas's formation, simultaneously, through this device round trip movement and detect in the pond, increased measuring range, can in time solve the problem that detects, intelligent intensity is high, has reduced the cost that the pond was managed in the very big degree.

2. The utility model discloses when putting this device in the pond, it is rotatory through first motor, drive first bevel gear and rotate, first bevel gear rotates can link second bevel gear and bull stick and rotates, can drive the screw when the bull stick pivoted and rotate, the screw passes through the paddle and rotates, promote pond water, thereby reach the effect that provides kinetic energy for the floater, be convenient for make this device remove on water and improved detection range, and simultaneously, the screw is rotatory, can mix water, thereby the activity of pond water has further been improved.

The foregoing summary is provided for the purpose of description only and is not intended to be limiting in any way. In addition to the illustrative aspects, embodiments, and features described above, further aspects, embodiments, and features of the present invention will be readily apparent by reference to the drawings and the following detailed description.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the embodiments or technical descriptions will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a view of the overall structure of the utility model;

FIG. 2 is a cross-sectional view of the floating body according to the present invention;

FIG. 3 is a sectional view of the housing of the present invention;

FIG. 4 is a cross-sectional structural view of the storage battery of the present invention;

fig. 5 is a plan structure diagram of the control circuit system of the present invention.

Reference numerals: 1. a floating body; 2. a housing; 3. detecting the shell; 4. a dissolved oxygen sensor; 5. an ammonia gas detector; 6. an oxygenation pump; 7. an oxygen tube; 8. an oxygen nozzle; 9. a monitor; 10. a first motor; 11. a first bevel gear; 12. a rotating rod; 13. a second bevel gear; 14. a propeller; 15. a storage battery; 16. a second motor; 17. a screw rod; 18. a driven lever; 19. a slide plate; 20. a stopper; 21. a water pump; 22. a solar panel.

Detailed Description

In the following, only certain exemplary embodiments are briefly described. As those skilled in the art will recognize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. Accordingly, the drawings and description are to be regarded as illustrative in nature, and not as restrictive.

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1-5, an embodiment of the present invention provides a monitoring system for fish pond cultivation, including a floating body 1, a controller, a casing 2 welded on the top of the floating body 1, and a monitor 9 disposed above the casing 2, the floating body 1 is in a shape of a circular basin, a detection shell 3 is welded on the bottom of the casing 2, the detection shell 3 is in a shape of a cylinder, the top of the inner wall of the detection shell 3 is respectively provided with a dissolved oxygen sensor 4 and an ammonia gas detector 5 through screws and screw holes, the ammonia gas detector 5 is disposed on one side of the dissolved oxygen sensor 4, the outer side wall of the detection shell 3 is provided with a water inlet for water inflow, so as to facilitate the dissolved oxygen sensor 4 and the ammonia gas detector 5 to detect water; an oxygen increasing pump 6 is installed at the bottom of the inner wall of the shell 2 and close to one side of the inner wall through bolts and screw holes, the output end of the oxygen increasing pump 6 penetrates through the floating body 1 through a pipeline to be connected with three oxygen pipes 7, one ends of the three oxygen pipes 7 are connected with oxygen nozzles 8, and the input end of the oxygen increasing pump 6 extends to the outside of the shell 2 through a pipeline and is used for extracting outside air; a water suction pump 21 is arranged at the bottom of the inner wall of the shell 2 and positioned at one side of the oxygenation pump 6 through bolts and screw holes, the input end of the water suction pump 21 is connected with a pipeline and penetrates through the shell 2 to extend into the fishpond, and the output end of the water suction pump 21 penetrates through the shell 2 through the pipeline to be connected with an atomizing nozzle which is used for pumping water in the fishpond out and spraying the water to the outside through the atomizing nozzle; the controller respectively controls the dissolved oxygen sensor 4, the ammonia gas detector 5, the oxygenation pump 6 and the water pump 21; when the device is used, the device is placed in a fishpond and moved, the detection shell 3 is contacted with water, the dissolved oxygen sensor 4 and the ammonia gas detector 5 in the detection shell 3 are used for detecting the oxygen content and the ammonia gas content in the fishpond, when the oxygen content is lower than a set value, information is transmitted to the controller, the controller controls the oxygenation pump 6 to be started, outside air is pumped into the oxygenation pump 6, air is conveyed into the oxygen pipe 7 through a pipeline, oxygen is conveyed into the fishpond through the oxygen nozzle 8, the oxygen increasing effect of the fishpond is realized, the oxygen content in the fishpond is improved, when the ammonia gas detector 5 detects that the ammonia gas content in the fishpond exceeds a set index, the information is transmitted to the controller, the controller controls the water pump 21 to be started, water in the fishpond is pumped out, water is atomized through the atomization nozzle and sprayed outside, water mist is mixed with the air, and will drive the air and merge into aquatic again to realize reducing the purpose of ammonia content, when having improved the activity of pond water, also dissolved the ammonia, effectively reduced the formation of ammonia and other harmful gas, simultaneously, through this device round trip movement and detect in the pond, increased detection range, can in time solve the problem that detects, intelligent intensity is high, has reduced the cost of pond operation to a great extent.

In this embodiment, specifically: a first motor 10 is installed at the bottom of the inner wall of the shell 2 and close to one side of the inner wall through a bolt and a screw hole in a matched mode, the output end of the first motor 10 penetrates through the floating body 1 and is welded with a first bevel gear 11, the top of the inner wall of the floating body 1 is welded with a connecting rod, the bottom end of the connecting rod is welded with a bearing, a rotating rod 12 is installed on the inner ring of the bearing, one end of the rotating rod 12 is welded with a second bevel gear 13, the other end of the rotating rod 12 is welded with a propeller 14, and the first bevel gear 11 and the second bevel gear 13 are connected in a meshed mode; when putting this device in the pond, it is rotatory through first motor 10, drive first bevel gear 11 and rotate, first bevel gear 11 rotates and can link second bevel gear 13 and bull stick 12 and rotate, can drive screw 14 when bull stick 12 rotates and rotate, screw 14 passes through the paddle and rotates, promote pond water, thereby reach the effect that provides the kinetic energy for floating body 1, be convenient for make this device move on water, thereby detection range has been improved, and simultaneously, screw 14 is rotatory, can stir water, thereby pond water's activeness has further been improved.

In this embodiment, specifically: the storage battery 15 is placed at the bottom of the inner wall of the shell 2 and located on one side of the first motor 10, four support rods are welded to the top of the shell 2, a solar panel 22 is welded to the top ends of the four support rods through a mounting plate, the solar panel 22 is electrically connected with the storage battery 15, and the storage battery 15 is electrically connected with the dissolved oxygen sensor 4, the ammonia gas detector 5, the oxygen increasing pump 6, the water suction pump 21 and the first motor 10 respectively; the solar panel 22 absorbs solar energy, converts the solar energy into electric energy by utilizing the photoelectric effect, transmits the electric energy into the storage battery 15 for storage, and provides electric energy sources for the dissolved oxygen sensor 4, the ammonia gas detector 5, the oxygenation pump 6, the water pump 21, the first motor 10 and the controller through the storage battery 15 respectively, so that the electric energy is effectively saved, the environmental protection property is guaranteed, and the endurance of the device is prolonged.

In this embodiment, specifically: a second motor 16 is installed at the center of the inside of the shell 2 through a bolt and a screw hole in a matching manner, a screw rod 17 is welded at the output end of the second motor 16, an installation opening is formed in the center of the top of the shell 2 and corresponds to the position of the screw rod 17, a bearing is installed inside the installation opening, the top end of the screw rod 17 penetrates through the inner ring of the bearing and is attached to the inner ring of the bearing, a stop block 20 is arranged above the shell 2, a rain shelter used for sheltering from sunlight and rainwater is welded at the top of the stop block 20, an installation opening is formed in the bottom of the stop block 20, the bearing is installed inside the installation opening and corresponds to the position of the screw rod 17, the top end of the screw rod 17 penetrates through the shell 2 and is attached to the inner ring of the bearing installed at the bottom of the stop block 20, two driven rods 18 are welded at the top of the shell 2, the two driven rods 18 are located at two sides of the screw rod 17, and the top end of the driven rods 18 are welded to the bottom of the stop block 20, the outer side wall of the screw rod 17 is in threaded sliding connection with a sliding plate 19, the sliding plate 19 is in sliding fit connection with a driven rod 18 through a sleeve, and the sliding plate 19 is fixedly connected with the monitor 9; through setting up watch-dog 9 for the peripheral environment in control pond has improved the safety protection nature, drives the lead screw 17 rotation through second motor 16, because lead screw 17 is threaded connection with slide 19, when lead screw 17 is rotatory, can drive slide 19 through frictional force and slide on driven lever 18, and slide 19 slides and can drive watch-dog 9 and slide, thereby reaches the effect of watch-dog 9 regulation from top to bottom, has improved watch-dog 9's field of vision scope.

The utility model discloses at the during operation: s1, when the device is placed in a fishpond, the first motor 10 rotates to drive the first bevel gear 11 to rotate, the first bevel gear 11 rotates to link the second bevel gear 13 with the rotating rod 12 to rotate, the rotating rod 12 rotates to drive the propeller 14 to rotate, and the propeller 14 rotates through the blades to push pond water, so that the effect of providing kinetic energy for the floating body 1 is achieved.

S2, when the device is placed in a fishpond, the detection shell 3 contacts with water, the oxygen content and the ammonia content in the fishpond are detected through the dissolved oxygen sensor 4 and the ammonia detector 5 in the detection shell 3, when the oxygen content is lower than a set value, information is transmitted to the controller, the controller controls the oxygenation pump 6 to be started, outside air is pumped into the oxygenation pump 6, air is conveyed into the oxygen pipe 7 through a pipeline, oxygen is conveyed into the fishpond through the oxygen nozzle 8, the oxygen increasing effect of the fishpond is realized, the oxygen content in the fishpond is improved, when the ammonia detector 5 detects that the ammonia content in the fishpond exceeds a set index, the information is transmitted to the controller, the controller controls the suction pump 21 to be started, water in the fishpond is pumped out, water mist is atomized through the atomization nozzle and sprayed outside, water mist is mixed with the air, and air is driven to be re-melted into the water, thereby realize reducing the purpose of ammonia content, when having improved the activeness of pond water, also dissolved the ammonia, effectively reduced ammonia and other harmful gas's formation, simultaneously, through this device round trip movement and detect in the pond, increased detection range, can in time solve the problem that detects, intelligent intensity is high, has reduced the cost that the pond was managed in the very big degree.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily think of various changes or substitutions within the technical scope of the present invention, which should be covered by the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (8)

1. Monitoring system for pond is bred, including floating body (1), controller and fixed mounting float casing (2) at body (1) top and set up and be in watch-dog (9) of casing (2) top, its characterized in that: a detection shell (3) is fixedly installed at the bottom of the shell (2), a dissolved oxygen sensor (4) and an ammonia gas detector (5) are respectively and fixedly installed at the top of the inner wall of the detection shell (3), and the ammonia gas detector (5) is located on one side of the dissolved oxygen sensor (4);

an oxygenation pump (6) is fixedly installed inside the shell (2), the output end of the oxygenation pump (6) penetrates through the floating body (1) through a pipeline and is fixedly connected with a plurality of oxygen pipes (7), one ends of the oxygen pipes (7) are fixedly connected with oxygen nozzles (8), and the input end of the oxygenation pump (6) extends to the outside of the shell (2) through a pipeline;

a water suction pump (21) is fixedly installed inside the shell (2) and on one side of the oxygenation pump (6), the input end of the water suction pump (21) extends into the fishpond through a pipeline, and the output end of the water suction pump (21) penetrates through the shell (2) through the pipeline to be fixedly connected with an atomizing nozzle;

the controller is respectively with dissolved oxygen sensor (4), ammonia detector (5), oxygenation pump (6) and suction pump (21) electric connection, the inside of casing (2) is provided with and is used for removing the moving mechanism of the floating body (1).

2. The monitoring system for fish pond culture according to claim 1, wherein: the moving mechanism comprises a first motor (10) fixedly installed inside the shell (2) and close to one side of the shell, and a first bevel gear (11) fixedly installed at the output end of the first motor (10).

3. The monitoring system for fish pond culture according to claim 2, wherein: the moving mechanism further comprises a bearing connected to the bottom of the floating body (1) through a connecting rod, a rotating rod (12) fixedly installed at the inner ring of the bearing, a second bevel gear (13) fixedly connected to one end of the rotating rod (12), and a propeller (14) fixedly connected to the other end of the rotating rod (12), wherein the first bevel gear (11) is meshed with the second bevel gear (13).

4. The monitoring system for fish pond culture according to claim 3, wherein: casing (2) inside just be located one side fixed mounting of first motor (10) has battery (15), the top fixed mounting of casing (2) has solar panel (22), solar panel (22) with battery (15) electric connection.

5. The monitoring system for fish pond culture according to claim 4, wherein: the storage battery (15) is electrically connected with the dissolved oxygen sensor (4), the ammonia gas detector (5), the oxygenation pump (6), the water suction pump (21) and the first motor (10) respectively.

6. The monitoring system for fish pond culture according to claim 5, wherein: the inside center department fixed mounting of casing (2) has second motor (16), the output fixedly connected with lead screw (17) of second motor (16), the top of lead screw (17) is passed casing (2) are rotated and are connected with dog (20).

7. The monitoring system for fish pond culture according to claim 6, wherein: the driven rod (18) is installed at the top of the shell (2), the driven rod (18) is located on two sides of the screw rod (17), and the top end of the driven rod (18) is fixedly connected with the bottom of the stop block (20).

8. The monitoring system for fish pond culture according to claim 7, wherein: the outer side wall of the screw rod (17) is in threaded connection with a sliding plate (19), the sliding plate (19) is connected with the driven rod (18) in a sliding fit mode through a sleeve, and the sliding plate (19) is fixedly connected with the monitor (9).

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