CN218921318U - Intelligent feeding system is bred in integrated box formula pond - Google Patents

Abstract

The utility model discloses an integrated box type intelligent feeding system for fish pond culture, which is characterized in that a metering bin is arranged above a mixer, a lower cone bucket part with the metering bin is connected with a first weighing sensor, a discharge hole of the lower cone bucket part is provided with an electric flat valve, an impeller type discharge valve is arranged below the electric flat valve, and the mixer is provided with an electric valve outlet and a second weighing sensor; the material receiving device is connected with the outlet of the electric plug valve and is used for receiving the feed sent by the material mixer, and is provided with an inlet connected with the feeding fan through a material conveying pipe and an outlet for diverting and conveying the feed to the rotary material throwing device in the pond through the material conveying pipe; the device comprises a box body, a belt metering bin, a mixer, a receiving device, a feeding fan and an intelligent control unit, wherein the intelligent control unit is integrally arranged on the box body; the automatic feeding device is beneficial to reducing the labor intensity, the use cost of feed and the labor cost, is convenient for accurate feeding and feeding management, is safe and reliable, and is simple to arrange and install on site at the side of a pond.

Description

Intelligent feeding system is bred in integrated box formula pond

Technical Field

The utility model belongs to the technical field of feeding of fish pond culture feeds, and particularly relates to a fish pond culture feeding system.

Background

At present, the culture of the pond edge fishes and shrimps mainly depends on manual work, and the following defects mainly exist:

1. the amount of the raw fish culture pond of 10 mu reaches 1-2t/d, the water body area is large, the raw fish culture pond is manually conveyed, mixed and fed, the manual strength is high, sometimes, the culture personnel need to throw the raw fish into the pond by rowing, the safety is not guaranteed, and the water body area for single person management is reduced;

2. the existing water body culture is concentrated continuously, bulk feed is pushed, the old feeding mode can only adopt bagged feed, the feed cost is higher than that of the bulk feed, and the feed is also a waste of resources;

3. more and more accurate feeding modes are required for the higher-density cultivation of unit water, and accurate metering is difficult to achieve due to the adoption of an old bait casting machine or a manual stirring feeding mode;

4. the requirements on feeding amount are different in different cultivation stages, the old-fashioned feeding mode mainly depends on manual experience and personnel record, management is complex, and cultivation data are difficult to trace.

In summary, the conventional method of feeding the feed manually has the problems of high labor intensity, high feed feeding cost, inaccurate manual feeding, difficult feed feeding management record and the like, and the conventional method is difficult to satisfy the existing cultivation mode by using the manual and old feeding machines along with the continuous centralization and expansion of cultivation water bodies. Therefore, in order to meet the feed feeding requirement of a new cultivation mode, it is necessary to provide an intelligent pond edge feeding system so as to reduce the labor intensity, reduce the use cost and labor cost of the feed and facilitate accurate feeding and management feeding.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model aims to provide the integrated box type intelligent feeding system for fish pond culture, which is beneficial to reducing the labor intensity, lowering the use cost and labor cost of feed, facilitating accurate feeding and feeding management, and is safe and reliable and simple to arrange and install on site at the side of a pond.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides an integrated box formula pond is bred intelligence and is thrown feeding system, including taking measurement feed bin, mixer, receiving device, feeding fan, intelligent control unit, box and pond in rotation formula throwing device, take the measurement feed bin to locate the top of mixer and be used for storing the fodder, be equipped with first weighing sensor in taking the connection of the lower cone bucket portion of measurement feed bin, the discharge gate of lower cone bucket portion sets up electronic flat valve, the below of electronic flat valve sets up impeller formula relief valve, the mixer has electric valve export and is equipped with second weighing sensor.

The receiving device is connected with the outlet of the electric plug valve and is used for receiving the feed sent by the mixer, and is provided with an inlet connected with the feeding fan through a material conveying pipe and an outlet for conveying the feed by diversion through the material conveying pipe to the rotary material throwing device in the pond. The box body is used for integrally installing a metering bin, a mixer, a receiving device, a feeding fan and an intelligent control unit, wherein the intelligent control unit is electrically connected with the first weighing sensor, the electric flat valve, the impeller type discharging valve, the mixer, the second weighing sensor, the feeding fan and the rotary type throwing device in the pond respectively. According to the intelligent feeding system for fish pond culture, bulk feed is stored in a feed bin with a metering function, an intelligent control unit controls an electric flat valve to open and an impeller type discharge valve to work and feed into a mixer, after the feed is uniformly mixed in the mixer, an electric plug valve outlet is controlled to open by the intelligent control unit and feed is fed into a receiving device, the feed in the receiving device is blown and shunted to a rotary throwing device in a pond through a feeding fan, and the rotary throwing device in the pond rotates in a fish pond for throwing the feed, so that automation of feed throwing and feeding is realized, the labor intensity and labor cost are reduced, and the use cost of the bulk feed for throwing and feeding is reduced compared with that of artificial bagged feed; the feed feeding device comprises a feed hopper, a feed mixer, an intelligent control unit, a weighing sensor, a feed control unit, a control unit and a control unit, wherein the feed hopper and the feed mixer are both provided with the weighing sensor, so that the feed feeding quantity can be accurately controlled, the feed feeding operation can be intelligent and the accurate feeding and feeding management can be conveniently realized through the control of the intelligent control unit; meanwhile, functional components such as a metering bin, a mixer, a receiving device, a feeding fan, an intelligent control unit and the like are integrally arranged on one box body, so that the device is convenient to arrange and install on the side of the fish pond, and is safe and reliable.

The utility model has the following beneficial effects:

the integrated box type intelligent feeding system for fish pond culture has the characteristics of being beneficial to reducing the labor intensity, reducing the use cost and the labor cost of feed, being convenient for accurate feeding and feeding management, being safe and reliable and being simple to arrange and install on site at the side of a pond.

Drawings

FIG. 1 is a front view of a first embodiment of the integrated tank-type intelligent feeding system for fish pond culture of the present utility model;

FIG. 2 is a top view of a first embodiment of the integrated tank-type intelligent feeding system for fish pond culture of the present utility model;

FIG. 3 is a side view of a first embodiment of the integrated tank-type intelligent feeding system for fish pond culture of the present utility model;

FIG. 4 is a front view of a second embodiment of the integrated tank-type intelligent feeding system for fish pond culture of the present utility model;

FIG. 5 is a top view of a second embodiment of the integrated tank-type intelligent feeding system for fish pond culture of the present utility model;

FIG. 6 is a side view of a second embodiment of the integrated tank-type intelligent feeding system for fish pond culture of the present utility model;

FIG. 7 is a second overturning structural diagram of the mixer of the integrated tank type intelligent feeding system for fish pond culture;

FIG. 8 is a third turning structure diagram of a mixer of the integrated tank type intelligent feeding system for fish pond culture of the utility model;

fig. 9 is a schematic view of the connection structure of the support frame and the fixing frame in fig. 8.

Detailed Description

The present utility model will be further described with reference to the accompanying drawings and specific embodiments so as to more clearly understand the technical ideas claimed in the present utility model.

The first embodiment of the intelligent feeding system for integrated box-type fish pond culture shown in fig. 1-3 comprises a metering bin 1, a mixer 2, a receiving device 3, a feeding fan 4, an intelligent control unit 5, a box 6 and a rotary throwing device 7 in the pond, wherein the metering bin 1, the mixer 2, the receiving device 3, the feeding fan 4 and the intelligent control unit 5 are integrally arranged in the box 6. The case 6 is provided with a door to facilitate operations such as access maintenance, and is provided with an exhaust fan and a window to facilitate lighting and ventilation. The belt metering bin 1 is arranged on the box 6 and above the mixer 2 for storing feed, the belt metering bin 1 comprises an upper bin part 11 and a lower cone bucket part 12, the upper bin part 11 can be assembled on site, a feed pipe is arranged at the top, the lower cone bucket part 12 is arranged inside the box 6, the lower cone bucket part 12 with the metering bin 1 is connected with a first weighing sensor 13, an electric flat valve 14 is arranged at a discharge hole of the lower cone bucket part 12, and an impeller type discharge valve 15 is arranged below the electric flat valve 14.

The mixer 2 is provided with an electric plug valve outlet 20 and a second weighing sensor 21, the mixer 2 comprises a mixing drum 22, a mixing driver 23, a supporting frame 24, a fixed support 25 and a screw lifter 26, the mixing driver 23 is arranged at the bottom of the mixing drum 22, the mixing drum 22 is fixedly arranged at the supporting frame 24, the screw lifter 26 is arranged on the fixed support 25, a lifting screw of the screw lifter 26 is in threaded connection with the supporting frame 24, the screw lifter 26 belongs to a lifting driving device which can be purchased directly conventionally, the supporting frame 24 is hinged with the fixed support 25, and the overturning and dumping of the mixing drum 22 are realized through the lifting of the lifting screw. The second weighing sensor 21 is arranged on the fixed bracket 25 and used for measuring the whole mixer 2, and the mixer driver 23 and the screw lifter 26 are electrically connected with the intelligent control unit 5.

The receiving device 3 is connected with an electric valve outlet 20 of the mixer 2 to receive the feed sent by the mixer 2, and the electric valve outlet 20 is in flexible connection with the receiving device 3 under the condition that the mixer 2 adopts overturning and dumping. The receiving device 3 is provided with a receiving hopper 31 and a receiving device 32 arranged at the lower part of the receiving hopper 31, the receiving hopper 31 is in flexible connection with the electric plug valve outlet 20, two ends of the receiving device 32 are respectively provided with an inlet connected with the feeding fan 4 and an outlet connected with the distributor, the inlet is connected with the feeding fan 4 through a material conveying pipe, preferably a hose, and the outlet is used for shunting and conveying feed to the rotary type material throwing device 7 in the pond.

In other embodiments, the mixer 2 may not adopt a turnover and pouring mode, so long as the automatic feed feeding to the receiving device 3 can be realized, for example, the feed is directly pushed into the receiving device 3 by adopting a screw extrusion feeding mode, and the expansion explanation is not listed here, in this case, the support frame 24 and the fixed frame 25 may be used as an integral frame, no movable connection is needed, and the second weighing sensor 21 is arranged at the bottom of the integral frame to measure the whole mixer 2.

Wherein, take measurement feed bin 1, mixer 2, receiving device 3 and pay-off fan 4 correspond and include two sets of, rotary type throwing device 7 includes four sets in the pond, the export of receiving device 3 is through the material conveyer pipe, adopt the import of hose connection first four-way distributor 33 preferably, two sets of Y type electric three-way valve 34 are connected respectively to two exports of first four-way distributor 33, four exports of two sets of Y type electric three-way valve 34 are through the material conveyer pipe, adopt the hose to connect rotary type throwing device 7 in four sets of ponds respectively preferably, Y type electric three-way valve 34 and intelligent control unit 5 control connection, can satisfy the fodder of four cultivation ponds and throw the needs. Wherein, the throwing head of rotary throwing device 7 sets up a plurality of exports in the pond, generally can set up 2, 4 or 6 to set up different angles, realize throwing the rotation of stub bar through drive arrangement, thereby make the fodder throw cover and breed the pond bigger area, rotary throwing device 7 also can adopt current fodder to rotate throwing device to replace in the pond, and the description is not expanded to its concrete structure here.

The intelligent control unit 5 is electrically connected with the first weighing sensor 13, the electric flat valve 14, the impeller type discharge valve 15, the mixer 2, the second weighing sensor 21, the feeding fan 4 and the rotary type material throwing device 7 in the pond respectively, the intelligent control unit 5 can be further connected with a mobile phone through wireless signals to realize remote control or information push through mobile phone operation, and specific implementation means of control connection of the intelligent control unit 5 and each functional component can be completed based on the prior art and are not repeated herein.

The intelligent feeding system for fish pond culture is characterized in that bulk feed is stored in a metering bin 1, an intelligent control unit 5 controls an electric flat valve 14 to open and an impeller type discharge valve 15 to work so as to drop feed into a mixer 2, the feed is uniformly stirred and mixed in the mixer 2, an electric valve outlet 20 is controlled by the intelligent control unit 5 to open and feed into a receiving device 3, the feed in the receiving device 3 is blown and split into a rotary type feed throwing device 7 in the pond through a feed fan 4, and the rotary type feed throwing device 7 in the pond rotates to throw the feed in the fish pond, so that automation of feed feeding is realized, labor intensity and labor cost are reduced, and the use cost of bulk feed feeding is reduced compared with that of artificial bagged feed; the feed feeding device comprises a feed bin 1 with a metering function and a mixer 2 with a metering function, wherein the feed bin 1 with the metering function and the mixer 2 with the metering function are respectively provided with weighing sensors, so that the feeding quantity of feed can be accurately controlled, the intelligent feeding operation can be realized through the control of an intelligent control unit 5, and the accurate feeding and feeding management can be conveniently realized; meanwhile, the functional components such as the metering bin 1, the mixer 2, the receiving device 3, the feeding fan 4, the intelligent control unit 5 and the like are integrally arranged on the box body 6, so that the on-site arrangement and the installation of the side of the fish pond are facilitated, and the fish pond is safe and reliable.

In addition, the air outlet of the feeding fan 4 is connected with a second four-way distributor 42 through a first electric two-way valve 41, three outlets of the second four-way distributor 42 are connected with the lower cone bucket part 12 through an arch breaking air pipe 43, the arch breaking function of the storage bin is realized, and the first electric two-way valve 41 is electrically connected with the intelligent control unit 5. The air outlet of the feeding fan 4 is connected with a cleaning air pipe 45 through a second electric two-way valve 44, the cleaning air pipe 45 is connected with the mixing barrel 22 of the mixer 2, and the tailing after discharging is cleaned by blowing, and the second electric two-way valve 44 is electrically connected with the intelligent control unit 5. Still install camera 8 in the box 6, the top that mix bucket 22 was located to camera 8 is used for video monitoring mixing bucket 22 interior material condition, and camera 8 and intelligent control unit 5 control are connected. The box 6 is internally provided with a dosing system 9 corresponding to the mixer 2, the dosing system 9 comprises a stirring tank 91 with metering, a stirring device is arranged, the stirred drug is pumped into a stirring barrel 22 through a pump to be mixed with feed, and the dosing system 9 is in control connection with the intelligent control unit 5.

As shown in fig. 7, the turning structure of the mixer 2 may also take the form of: the mixer 2 is composed of a mixing drum 22, a mixing driver 23, a support frame 24, a fixed support 25 and a driving chain wheel assembly 27, wherein the mixing driver 23 is arranged at the bottom of the mixing drum 22, the mixing drum 22 is fixedly arranged on the support frame 24, the support frame 24 is pivotally arranged on the fixed support 25 through a transfer shaft 240, the driving chain wheel assembly 27 comprises a first driving motor 271, a driving chain wheel, a driven chain wheel and a driving chain, the driven chain wheel is arranged on the transfer shaft 240, the first driving motor 271 is arranged on the fixed support 25, the driving chain wheel is arranged on a motor shaft of the first driving motor 271 and is in transmission connection with the driven chain wheel through the driving chain, and the second weighing sensor 21 is arranged on the fixed support 25; the first driving motor 271 drives the driving sprocket to drive the driven sprocket to rotate through the transmission chain, so as to drive the support frame 24 to turn over relative to the fixed support frame 25 through the switching shaft 240, and further drive the mixing bucket 22 to turn over and turn to the receiving hopper 31 to pour the feed.

Or the structure forms shown in fig. 8 and 9: the mixer 2 is composed of a mixing barrel 22, a mixing driver 23, a support frame 24, a fixed support 25 and a screw rod slide block driving assembly 28, wherein the mixing driver 23 is arranged at the bottom of the mixing barrel 22, the mixing barrel 22 is fixedly arranged on the support frame 24, the screw rod slide block driving assembly 28 comprises a second driving motor 281, a driving sprocket, a driven sprocket, a transmission chain, a transmission screw 282 and a screw rod slide block 283, two sides of the bottom of the support frame 24 are hinged to the screw rod slide block 283, the second driving motor 281 is arranged on the fixed support 25, the driving sprocket is arranged on a motor shaft of the second driving motor 281, the transmission screw 282 is symmetrically arranged on the fixed support 25 and respectively connected with the driven sprocket, the driving sprocket is positioned between the driven sprockets and is in transmission connection with the driven sprocket through the transmission chain, the screw rod slide block 283 is in threaded connection with the transmission screw rod 282, two sides of the support frame 24 are pivotally connected with a support connecting rod 241, the other end of the support connecting rod 241 is pivotally connected to the fixed support 25, and the second weighing sensor 21 is arranged on the fixed support 25; the driving chain wheel is driven by the second driving motor 281 to drive the driven chain wheel to rotate through the transmission chain, the driven chain wheel rotates and synchronously drives the transmission screw rod 282 to rotate, so that the screw rod sliding block 283 slides on the transmission screw rod 282 to enable the support frame 24 to turn over, and the support connecting rod 241 is always supported and connected between the support frame 24 and the fixed support frame 25 during the turning over of the support frame 24, so that the structure is kept stable during the turning over and dumping of the mixing drum 22.

In other embodiments, as shown in fig. 4-6, the belt metering bin 1, the mixer 2, the receiving device 3 and the feeding fan 4 correspondingly comprise a group, the rotary throwing device 7 in the pond comprises two sets or one set, the outlet of the receiving device 3 is connected with the inlet of the Y-shaped electric three-way valve 34 through a material conveying pipe, preferably a hose, the two outlets of the Y-shaped electric three-way valve 34 are respectively connected with the rotary throwing device 7 in the pond or one set of pond through a material conveying pipe, preferably a hose, and the Y-shaped electric three-way valve 34 is in control connection with the intelligent control unit 5; corresponding configuration can be carried out according to actual needs.

Various other corresponding changes and modifications will occur to those skilled in the art from the foregoing description and the accompanying drawings, and all such changes and modifications are intended to be included within the scope of the present utility model as defined in the appended claims.

Claims (10)

1. The utility model provides an intelligent feeding system is bred in integrated box formula pond, includes mixer, pay-off fan, intelligent control unit and pond in rotatory throwing material device, its characterized in that still includes:

the feeding device comprises a feeding machine, a feeding hopper, a first weighing sensor, a second weighing sensor, a first weighing sensor and a second weighing sensor, wherein the feeding hopper is provided with a metering bin and is arranged above the feeding machine, the discharging port of the lower conical hopper is provided with an electric flat valve, an impeller type discharging valve is arranged below the electric flat valve, and the feeding machine is provided with an electric valve outlet and is provided with the second weighing sensor;

the receiving device is connected with the outlet of the electric plug valve and used for receiving the feed sent by the mixer, and is provided with an inlet connected with the feeding fan through a material conveying pipe and an outlet for diverting and conveying the feed to the rotary material throwing device in the pond through the material conveying pipe;

the box body is used for integrally installing the belt metering bin, the mixer, the receiving device, the feeding fan and the intelligent control unit;

the intelligent control unit is electrically connected with the first weighing sensor, the electric flat valve, the impeller type discharge valve, the mixer, the second weighing sensor, the feeding fan and the rotary type material throwing device in the pond respectively.

2. The integrated tank type intelligent feeding system for fish pond culture according to claim 1, wherein an air outlet of the feeding fan is connected with a second four-way distributor through a first electric two-way valve, three outlets of the second four-way distributor are connected with the lower cone bucket part through an arch breaking air pipe, and the first electric two-way valve is electrically connected with the intelligent control unit.

3. The integrated box type intelligent feeding system for fish pond culture according to claim 1, wherein the material mixer comprises a material mixing barrel and a material mixing driver, the material mixing driver is arranged at the bottom of the material mixing barrel, and the material mixing driver is electrically connected with the intelligent control unit; the receiving device is provided with a receiving hopper, and the receiving hopper is connected with an outlet of the electric plug valve.

4. The intelligent feeding system for integrated tank type fish pond culture of claim 3, wherein an air outlet of the feeding fan is connected with a cleaning air pipe through a second electric two-way valve, the cleaning air pipe is connected with the mixing bucket, and the second electric two-way valve is electrically connected with the intelligent control unit.

5. The intelligent feeding system for integrated tank type fish pond culture of claim 3, wherein the material receiving device further comprises a material receiving device arranged at the lower part of the material receiving hopper, and two ends of the material receiving device are respectively provided with an inlet connected with the feeding fan and an outlet for diverting and conveying feed to the rotary material throwing device in the pond.

6. The intelligent feeding system for integrated tank fish pond culture of claim 3, wherein a camera is installed in the tank, the camera is arranged above the mixing drum and used for monitoring the material condition in the mixing drum in a video mode, and the camera is connected with the intelligent control unit in a control mode.

7. The intelligent feeding system for integrated tank type fish pond culture of claim 3, wherein a dosing system is arranged corresponding to the material mixer, the dosing system comprises a stirring tank with metering and is provided with a stirring device, the stirred drug is pumped into the stirring tank through a pump and mixed with feed, and the dosing system is in control connection with the intelligent control unit.

8. The intelligent feeding system for integrated tank type fish pond culture according to any one of claims 1-7, wherein the belt metering bin, the material stirring machine, the material receiving device and the feeding fan correspondingly comprise two groups, the rotary material throwing device in the pond comprises four sets, the outlet of the material receiving device is connected with the inlet of a first four-way distributor through a material conveying pipe, two outlets of the first four-way distributor are respectively connected with two sets of Y-shaped electric three-way valves, four outlets of the two sets of Y-shaped electric three-way valves are respectively connected with four sets of rotary material throwing devices in the pond through material conveying pipes, and the Y-shaped electric three-way valves are in control connection with the intelligent control unit.

9. The intelligent feeding system for integrated tank type fish pond culture according to any one of claims 1-7, wherein the belt metering bin, the material stirring machine, the material receiving device and the feeding fan correspondingly comprise one group, the rotary material throwing device in the pond comprises two groups, the outlet of the material receiving device is connected with the inlet of a Y-shaped electric three-way valve through a material conveying pipe, the two outlets of the Y-shaped electric three-way valve are respectively connected with the two groups of rotary material throwing devices in the pond through material conveying pipes, and the Y-shaped electric three-way valve is in control connection with the intelligent control unit.

10. The integrated tank-type intelligent feeding system for fish pond culture according to any one of claims 1-7, wherein the intelligent control unit is connected with a mobile phone through wireless signals.

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