CN218043301U - A automatic feeder for bullfrog is bred - Google Patents

Abstract

The utility model discloses an automatic feeder for bullfrog cultivation, which comprises a cultivation frame; a multi-layer culture tank; a plurality of layers of horizontal rails; a plurality of lifting door mechanisms for opening or closing the culture tank; the lifting mechanism is provided with a lifting platform which can move to and fro in front of each lifting door mechanism; the breeding vehicle is movably arranged on the lifting platform and the horizontal rail, and a feeding mechanism used for feeding feed to the breeding tank is arranged on the breeding vehicle. The utility model can realize multi-layer bullfrog cultivation by arranging the cultivation frame and the multi-layer cultivation grooves, and has the advantage of small occupied area; and, through elevating system, breed the car and throw the cooperation of material mechanism, can carry out the fodder to each layer of groove of breeding and put in, have and feed convenient advantage.

Description

A automatic feeder for bullfrog is bred

Technical Field

The utility model relates to a technical field that bullfrog was bred especially relates to an automatic feeder for bullfrog is bred.

Background

The bullfrog has the advantages of fast growth, delicious taste, rich nutrition, high protein content and the like, and is a high-grade nutritional food with low fat and high protein; its skin can be used for tanning, and its internal organs can be used for preparing medicine. The bullfrog has higher economic value, is introduced into China for the first time in the end of 50 years, has the advantages of high growth speed, high yield, high efficiency and the like, and is one of the main varieties of special aquaculture after the rapid development of China for nearly 20 years.

However, the observation shows that the traditional bullfrog breeding mode adopts greenhouse breeding, has the defect of large occupied area, and is easily limited by space and regions; in addition, the feed is manually thrown to feed in the culture process, and the defect of inconvenient feeding is overcome.

In view of this, the present designer is able to make a deep conception on the deficiencies and inconveniences caused by the perfection of the bullfrog breeding process, and actively research, improve and try to develop and design the present invention.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an area is little and feed convenient automatic feeder for bullfrog is bred.

In order to achieve the above purpose, the solution of the present invention is:

an automatic feeding machine for bullfrog breeding comprises a breeding frame, wherein frame isolation nets are arranged at the front end, the rear end, the right side and the top of the breeding frame; the multi-layer cultivation tanks are arranged in the cultivation frame at equal intervals from bottom to top; the multilayer horizontal rails are respectively matched above the multilayer culture tanks; the lifting door mechanisms are respectively arranged on the left side of the cultivation frame corresponding to the multi-layer cultivation grooves and used for opening or closing the cultivation grooves; the lifting mechanism is matched on the left side of the cultivation frame and is provided with a lifting platform which moves to and fro in front of each lifting door mechanism; the breeding vehicle is movably arranged on the lifting platform and the horizontal rail in a reciprocating mode, and a feeding mechanism used for feeding feed to the breeding groove is arranged on the breeding vehicle; the feeding mechanism comprises a hopper, and the hopper is arranged on the cultivation vehicle; and the spiral blanking machine is arranged at the bottom of the hopper and used for uniformly throwing the feed.

The lifting mechanism further comprises a lifting frame, and the lifting frame is matched with the left side of the cultivation frame; the platform lifting motor is arranged at the top of the lifting frame; the lifting connecting rod is arranged on the platform lifting motor; the lifting platform is fixed at the tail end of the lifting connecting rod and is driven by the platform lifting motor to move back and forth in front of each lifting door mechanism.

The lifting door mechanism comprises a net door guide frame, and the net door guide frame is arranged on the left side of the cultivation frame; the net door lifting motor is arranged at the top of the net door guide frame; and the lifting net door is movably arranged on the net door guide frame, the upper part of the lifting net door is fixed on an output shaft of the net door lifting motor, and the lifting net door is driven by the net door lifting motor to move to and fro the culture tank.

The breeding vehicle is provided with an electric control trolley, and the electric control trolley moves to and fro between the lifting platform and the horizontal track; the rechargeable battery is arranged on the upper part of the electric control trolley and is electrically connected with the electric control trolley; and the charging plug is arranged at the left end of the electric control trolley and is electrically connected with the rechargeable battery.

Breed the car and be the cuboid shape, the car of breeding of cuboid shape just can be through the overhead door mechanism after opening.

The lifting platform is provided with a first position sensor and a second position sensor, and when the second position sensor is triggered on the right side of the cultivation vehicle, the right side of the cultivation vehicle is close to the lifting door mechanism; the system is characterized in that a third position sensor and a fourth position sensor are arranged on the horizontal track, when the third position sensor is triggered on the left side of the breeding vehicle, the left side of the breeding vehicle is close to a lifting door mechanism, and when the fourth position sensor is triggered on the right side of the breeding vehicle, the breeding vehicle runs to the tail end of the horizontal track.

After the scheme is adopted, the multi-layer bullfrog cultivation can be realized by arranging the cultivation frame and the multi-layer cultivation grooves, and the multi-layer bullfrog cultivation device has the advantage of small floor area; and, through elevating system, breed car and throw the cooperation of material mechanism, can carry out the fodder to each layer of groove of breeding and put in, have the convenient advantage of feeding.

Drawings

Fig. 1 is a schematic structural diagram of a preferred embodiment of the present invention.

Fig. 2 is a schematic structural view of the frame separation net according to the preferred embodiment of the present invention, after being removed.

Fig. 3 is a schematic structural diagram of a lifting door mechanism in a preferred embodiment of the invention.

FIG. 4 is a schematic structural view of a cultivation vehicle according to a preferred embodiment of the present invention.

FIG. 5 is a sectional view of the cultivation vehicle in the preferred embodiment of the present invention.

FIG. 6 is a schematic diagram of the lifting mechanism according to the preferred embodiment of the present invention.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following embodiments.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

As shown in fig. 1 to 6, in order to provide a preferred embodiment of the automatic feeding machine for bullfrog cultivation of the present invention, the automatic feeding machine comprises a cultivation frame 1, wherein frame isolation nets 11 are installed at the front end, the rear end, the right side and the top of the cultivation frame 1; the multi-layer cultivation tanks 2 are arranged in the cultivation frame 1 at equal intervals from bottom to top; the multilayer horizontal rails 3 are respectively matched above the multilayer cultivation tanks 2; the lifting door mechanisms 4 are respectively arranged on the left side of the cultivation frame 1 corresponding to the multi-layer cultivation tanks 2 and used for opening or closing the cultivation tanks 2; the lifting mechanism 5 is matched on the left side of the culture frame 1, and the lifting mechanism 5 is provided with a lifting platform 51 which can move back and forth in front of each lifting door mechanism 4; the breeding vehicle 6 moves back and forth between the lifting platform 51 and the horizontal track 3, and a feeding mechanism 61 for feeding feed to the breeding tank 2 is arranged on the breeding vehicle 6; wherein, the feeding mechanism 61 comprises a hopper 611, and the hopper 611 is arranged on the cultivation vehicle 6; and a spiral blanking machine 612, wherein the spiral blanking machine 612 is installed at the bottom of the hopper 611 and used for uniformly throwing the feed.

When the device is used, a culturing person opens each layer of culturing groove 2 through the lifting door mechanism 4, and a certain number of bullfrogs are put into each layer of culturing groove 2, wherein the number of the bullfrogs is matched with the area of the culturing groove 2; and then, closing the breeding troughs 2 on each layer through the lifting door mechanism 4 to start the breeding of the bullfrogs.

In the culture process, when feed needs to be put in, the lifting mechanism 5 drives the lifting platform 51 and the culture vehicle 6 to the front of the lifting door mechanism 4; then, the feed is poured into the feeding mechanism 61; then, the breeding tank 2 is opened through a lifting door mechanism 4; then, driving the cultivation vehicle 6 to drive from the lifting platform 51 to the tail end of the horizontal track 3, and in the moving process, uniformly throwing the feed by the feeding mechanism 61; after the feed is put in, the cultivation vehicle 6 drives into the lifting platform 51 from the horizontal track 3; then, the culture tank 2 is closed by the lifting door mechanism 4. Thus, the feed can be fed to the culture tank 2 on each floor through the above steps.

The utility model is characterized in that the utility model can realize the multi-layer bullfrog cultivation by arranging the cultivation frame 1 and the multi-layer cultivation groove 2, and has the advantage of small occupied area; moreover, the feed can be fed into each layer of the culture tank 2 through the matching of the lifting mechanism 5, the culture vehicle 6 and the feeding mechanism 61, and the feed feeding device has the advantage of convenience in feeding.

The lifting mechanism 5 further comprises a lifting frame 52, and the lifting frame 52 is matched with the left side of the culture frame 1; a platform lifting motor 53, the platform lifting motor 53 is installed on the top of the lifting frame 52; and a lifting link 54, the lifting link 54 being mounted on the platform lifting motor 53; the lifting platform 51 is fixed at the end of a lifting connecting rod 54 and is driven by a platform lifting motor 53 to move back and forth in front of each lifting door mechanism 4.

The lifting door mechanism 4 comprises a net door guide frame 41, and the net door guide frame 41 is arranged on the left side of the culture frame 1; a net door lifting motor 5342, the net door lifting motor 5342 is installed on the top of the net door guide frame 41; and the lifting net door 43, the lifting net door 43 is movably arranged on the net door guide frame 41, the upper part of the lifting net door 43 is fixed on the output shaft of the net door lifting motor 5342, and the lifting net door is driven by the net door lifting motor 5342 to move to and fro in the culture tank 2.

When the device is used, the net door lifting motor 5342 drives the lifting net door 43 to move downwards to the culture tank 2 so as to close the culture tank 2, otherwise, the net door lifting motor 5342 drives the lifting net door 43 to move upwards to be far away from the culture tank 2, and then the culture tank 2 can be opened.

The breeding vehicle 6 is provided with an electric control trolley 62, and the electric control trolley 62 moves to and fro between the lifting platform 51 and the horizontal track 3; the rechargeable battery 63 is arranged on the upper part of the electric control trolley 62, and the rechargeable battery 63 is electrically connected with the electric control trolley 62; and a charging plug 64, wherein the charging plug 64 is arranged at the left end of the electric control trolley 62 and is electrically connected with the charging battery 63. This breed car 6 is provided the electric energy by rechargeable battery 63, need not lay the power cord, avoids the power cord to hinder the driving of breeding car 6.

The breeding vehicle 6 is cuboid, and the breeding vehicle 6 in the cuboid shape just can pass through the opened lifting door mechanism 4. So, breed car 6 when business turn over breed groove 2, the gap of breeding between car 6 and the overhead door mechanism 4 is less, can prevent that the bullfrog from boring out.

The lifting platform 51 is provided with a first position sensor 511 and a second position sensor 512, and when the second position sensor 512 is triggered on the right side of the cultivation vehicle 6, the right side of the cultivation vehicle 6 is close to the lifting door mechanism 4; be equipped with third position sensor 31 and fourth position sensor 32 on the horizontal track 3, when breeding 6 left sides of car and triggering third position sensor 32, breed the left side of car 6 and close to the lift gate mechanism 4, when breeding 6 right sides of car and triggering fourth position sensor 33, breed the end that car 6 went to horizontal track 3.

When the breeding vehicle 6 needs to enter the breeding tank 2, the second position sensor 512 is triggered on the right side of the breeding vehicle 6, the lifting door mechanism 4 is opened at the moment, and the right side of the breeding vehicle 6 is close to the lifting door mechanism 4, so that bullfrog jumping can be prevented; after the breeding vehicle 6 passes through the lifting door mechanism 4, the left side of the breeding vehicle 6 triggers the third position sensor 31, at the moment, the left side of the breeding vehicle 6 is close to the lifting door mechanism 4, bullfrogs can be prevented from jumping out, at the moment, the lifting door mechanism 4 is closed, and the breeding vehicle 6 continues to run forwards; when the breeding vehicle 6 triggers the fourth position sensor 32, the breeding vehicle 6 runs to the tail end of the horizontal track 3; when the breeding vehicle moves back, the third position sensor 31 is triggered first, the lifting door mechanism 4 is opened, the left side of the breeding vehicle 6 is close to the lifting door mechanism 4, and bullfrogs can be prevented from jumping out; then, the breeding vehicle 6 drives into the lifting platform 51 until the right side of the breeding vehicle 6 triggers the second position sensor 512, the right side of the breeding vehicle 6 is close to the lifting door mechanism 4, the bullfrog can be prevented from jumping out, and the lifting door mechanism 4 is closed at the moment; then, the left side of the cultivation vehicle 6 triggers the first position sensor 511, the cultivation vehicle 6 stops and charges, and then the cultivation vehicles reach the cultivation tanks 2 on each layer through the lifting mechanism 5.

The foregoing description of the specific exemplary embodiments of the invention has been presented for the purposes of illustration and description and is not intended to limit the invention to the precise forms disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain certain principles of the invention and its practical application, to thereby enable others skilled in the art to make and use various exemplary embodiments of the invention and various alternatives and modifications as may be suited to the particular use contemplated and contemplated by those skilled in the art without departing from the scope of the invention.

Claims (6)

1. The utility model provides an automatic feeder for bullfrog is bred which characterized in that: the automatic batch feeder comprises

The cultivation frame is provided with frame isolation nets at the front end, the rear end, the right side and the top;

the multi-layer cultivation tanks are arranged in the cultivation frame at equal intervals from bottom to top;

the multilayer horizontal rails are respectively matched above the multilayer culture tanks;

the lifting door mechanisms are respectively arranged on the left side of the cultivation frame corresponding to the multi-layer cultivation grooves and used for opening or closing the cultivation grooves;

the lifting mechanism is matched on the left side of the cultivation frame and is provided with a lifting platform which can move to and fro in front of each lifting door mechanism;

the breeding vehicle is movably arranged on the lifting platform and the horizontal rail in a reciprocating mode, and a feeding mechanism used for feeding feed to the breeding groove is arranged on the breeding vehicle;

wherein the feeding mechanism comprises

The hopper is arranged on the cultivation vehicle;

and the spiral blanking machine is arranged at the bottom of the hopper and used for uniformly throwing the feed.

2. An automatic feeder for bullfrog breeding as claimed in claim 1, characterized in that: the lifting mechanism also comprises

The lifting frame is matched on the left side of the cultivation frame;

the platform lifting motor is arranged at the top of the lifting frame;

the lifting connecting rod is arranged on the platform lifting motor;

the lifting platform is fixed at the tail end of the lifting connecting rod and is driven by the platform lifting motor to move back and forth in front of each lifting door mechanism.

3. An automatic feeder for bullfrog breeding as claimed in claim 1, characterized in that: the lifting door mechanism comprises

The net door guide frame is arranged on the left side of the cultivation frame;

the net door lifting motor is arranged at the top of the net door guide frame;

and the lifting net door is movably arranged on the net door guide frame, the upper part of the lifting net door is fixed on an output shaft of the net door lifting motor, and the lifting net door is driven by the net door lifting motor to move to and fro the culture tank.

4. An automatic feeder for bullfrog breeding as claimed in claim 1, characterized in that: the cultivation vehicle is provided with

The electric control trolley moves to and fro between the lifting platform and the horizontal track;

the rechargeable battery is arranged on the upper part of the electric control trolley and is electrically connected with the electric control trolley;

and the charging plug is arranged at the left end of the electric control trolley and is electrically connected with the rechargeable battery.

5. An automatic feeder for bullfrog breeding as claimed in claim 4, characterized in that: breed the car and be the cuboid shape, the car of breeding of cuboid shape just can be through the overhead door mechanism after opening.

6. An automatic feeder for bullfrog breeding as claimed in claim 5, characterized in that: the lifting platform is provided with a first position sensor and a second position sensor, and when the second position sensor is triggered on the right side of the cultivation vehicle, the right side of the cultivation vehicle is close to the lifting door mechanism; the system is characterized in that a third position sensor and a fourth position sensor are arranged on the horizontal track, when the third position sensor is triggered on the left side of the breeding vehicle, the left side of the breeding vehicle is close to a lifting door mechanism, and when the fourth position sensor is triggered on the right side of the breeding vehicle, the breeding vehicle runs to the tail end of the horizontal track.

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