CN211322578U - Remote chicken feeding equipment based on Internet of things - Google Patents

Abstract

The utility model provides remote chicken feeding equipment based on the Internet of things, which sequentially comprises a feed storage container, a fixed frame and a funnel from top to bottom, wherein a motor, a rotating wheel and a PCB circuit board are arranged in the fixed frame, and the motor is connected with the rotating wheel; the PCB circuit board is connected with the motor, can be through receiving remote signal control motor operation, and then drive the swiveling wheel rotatory for the fodder that the swiveling wheel drove in the fodder storage container turns to the funnel and accomplishes and eat down. The utility model provides a long-range chicken feeding equipment based on thing networking, small and exquisite and convenient dismantlement can be external, can place outside general chicken coop or pet cage, can be applicable to any chicken farm, perhaps the family is bred. Compared with large-scale equipment, the utility model has the advantages that the volume and the components are greatly reduced, the weight is light, the product can be hung on any independent coop, and the noise is not large, so that the poultry is not easy to frighten.

Description

Remote chicken feeding equipment based on Internet of things

Technical Field

The utility model relates to a long-range material device that spills especially relates to a long-range chicken feeding equipment based on thing networking.

Background

The poultry farming industry relates to chickens, ducks, pigeons and the like, and in order to achieve a scale effect, the existing farming equipment is mainly developed aiming at large-scale equipment. At present, in the process of feeding chicken and duck feed, large-scale equipment is used for unified operation or manual material scattering, and corresponding precise customized feeding equipment is not provided. With the social progress, the requirements of people on food health become stricter, and customized feeding becomes a trend. Therefore, a feeding device which has the advantages of high material spreading speed, high efficiency and capability of achieving customization is urgently needed.

SUMMERY OF THE UTILITY MODEL

The utility model relates to a long-range chicken feeding equipment based on thing networking can be regarded as aquaculture or domestic poultry and spills the material device, has solved present poultry and has bred can not the customization and feed and eat to and can not carry out the problem of long-range chicken of feeding through the thing networking, simultaneously the utility model discloses after combining the internet, can make internet user realize long-range chicken of feeding, reduce the user to food safety's distrust sense. The technical scheme is as follows:

a remote chicken feeding device based on the Internet of things sequentially comprises a feed storage container, a fixed frame and a funnel from top to bottom, wherein a motor, a rotating wheel and a PCB (printed Circuit Board) circuit board are installed in the fixed frame, and the motor is connected with the rotating wheel; the PCB circuit board is connected with the motor, can be through receiving remote signal control motor operation, and then drive the swiveling wheel rotatory for the fodder that the swiveling wheel drove in the fodder storage container turns to the funnel and accomplishes and eat down.

The fixed frame is divided into a motor mounting area and a feed discharging area, a motor is mounted in the motor mounting area, the feed discharging area is divided into a discharging area in the middle and expansion areas at two ends, a rotating wheel is mounted in the discharging area, and a PCB is mounted in the expansion areas.

The bottom of the feed storage container is provided with a small opening which is vertically communicated with the feeding area, the upper end of the feeding area is communicated with the bottom of the feed storage container, and the lower end of the feeding area is communicated with the top of the hopper.

The swiveling wheel comprises a right leakage-proof wall, a left leakage-proof wall, a central shaft and fan blades, wherein the two ends of the central shaft are respectively fixedly connected with the middle part of the right leakage-proof wall and the middle part of the left leakage-proof wall, a plurality of groups of fan blades are arranged on the central shaft, and the left end and the right end of each fan blade are respectively connected to the left leakage-proof wall and the right leakage-proof wall.

The leakage-proof wall, the central shaft and the fan blades are integrally formed.

The motor is connected with a rotating shaft, and the rotating shaft penetrates through the central shaft and is in interference fit with the central shaft, so that the central shaft can be driven to rotate; the rotating shaft is fixed on the blanking area of the fixed frame through a bearing seat.

The PCB circuit board is provided with a main control chip, a wireless module, a counter, a motor and a buzzer for alarming, wherein the wireless module, the counter, the motor and the buzzer are connected with the main control chip.

Under the condition that the camera is installed on the equipment, the camera can be connected to the main control chip through the data interface.

The main control chip adopts a LAP15W4K58S4 chip.

The lower end of the funnel is provided with a conduit for connecting other food conveying devices.

The motor passes through buffering runner device drive swiveling wheel, and buffering runner device is including relative setting and the same main buffering runner of structure and from buffering runner, and the structure of two buffering runners evenly sets up the commentaries on classics tooth on the circumferential surface of runner body, and the pitch arc distance between the commentaries on classics tooth is 3-8 times of commentaries on classics tooth width.

A conical screen is installed in the feed storage container, a pressure sensor is arranged at the lowest position of the screen, and the pressure sensor is connected with the PCB.

The utility model provides a long-range chicken feeding equipment based on thing networking, small and exquisite and convenient dismantlement can be external, can place outside general chicken coop or pet cage, can be applicable to any chicken farm, perhaps the family is bred. Compared with large-scale equipment, the utility model has the advantages that the volume and the components are greatly reduced, the weight is light, the product can be hung on any independent coop, and the noise is not large, so that the poultry is not easy to frighten.

Drawings

Fig. 1 is a schematic structural diagram of remote chicken feeding equipment based on the internet of things;

FIG. 2 is a schematic view of the fixed frame;

FIG. 3 is a schematic view of a rotating wheel;

FIG. 4 is a schematic view of a longitudinal section of the rotating wheel;

FIG. 5 is a schematic view of a catheter;

FIG. 6 is a schematic circuit diagram of a PCB circuit board in the present apparatus;

FIG. 7 is a schematic diagram of a PCB circuit board embodiment;

FIG. 8 is a detailed circuit diagram of FIG. 7;

FIG. 9 is a schematic view of a buffer wheel;

FIG. 10 is a side view of the buffer rotor;

FIG. 11 is a schematic illustration of a screen;

in the figure, 1-feed reservoir; 11-container opening; 12-a first mount; 13-a second mount; 2, a motor; 21-a rotating shaft; 3-a funnel; 4-a fixed frame; 41-bolt; 5-rotating the wheel; 51-a fan blade; 52-right leakage preventing wall; 53-left leakage preventing wall; 6-a catheter; 7-a main buffer runner; 8-slave buffer runner; 9-rotating teeth; 22-slave shaft; 10-screen mesh.

Detailed Description

As shown in fig. 1, the utility model provides a long-range chicken feeding equipment based on thing networking, including fodder storage container 1, fixed frame 4, funnel 3, fixed frame 4 passes through bolt 41 and fodder storage container 1 fixed connection of its upper end, through bolt 41 and funnel 3 fixed connection of its lower extreme.

The outer side of the feed storage container 1 is provided with a fixing frame for fixing the device, and the device can be applied to and hung on any iron cage. The fixing frames are provided with two groups, and each fixing frame comprises a first fixing frame 12 and a second fixing frame 13, the first fixing frames 12 are bent, and the second fixing frames 13 are sequentially provided with four hooks from top to bottom. The feed storage container 1 is made of semitransparent materials, so that workers in a chicken house can conveniently observe the feed storage container, and the feed filling position is a large container opening 11.

As shown in fig. 2, the fixing frame 4 is divided into a motor mounting area and a feed blanking area, and the motor 2 is mounted in the motor mounting area. The feed discharging area is divided into a discharging area in the middle and expansion areas at two ends, the upper end of the discharging area is communicated with the bottom of the feed storage container, and the lower end of the discharging area is communicated with the top of the hopper. Furthermore, the bottom of the feed storage container 1 is provided with a small opening which is vertically communicated with a feeding area, the small opening is used for feeding, the feed falls from the small opening to a position between fan blades of the rotating wheel 5, and the motor 2 rotates to realize feeding.

As shown in fig. 3 and 4, the unloading region department installs swiveling wheel 5, swiveling wheel 5 includes leak protection wall, center pin and flabellum, and the leak protection wall divide into right leak protection wall 52 and left leak protection wall 53, and center pin fixed connection is passed through at two leak protection wall middle parts, is provided with the multiunit flabellum on the center pin, the embodiment of the utility model provides an evenly be provided with 6 group's flabellums 51. Both ends of the fan blade 51 are connected to the right leakage preventing wall 52 and the left leakage preventing wall 53, respectively. Preferably, the leakage preventing wall, the central shaft and the fan blade are integrally formed. When the rotating wheel 5 rotates for blanking, the material can be directly transferred into the hopper 3.

The motor 2 is connected with a rotating shaft 21, and the rotating shaft 21 penetrates through the central shaft and is in interference fit with the rotating shaft 21 to drive the central shaft to rotate.

Bearing seats are arranged on the left side and the right side of the blanking area, the rotating shaft 21 is connected with the bearing seats, and the rotating shaft 21 sequentially penetrates through the left bearing seat, the central shaft and the right bearing seat in the direction.

And a PCB (printed Circuit Board) 6 is arranged in the expansion area and used for controlling the rotation of the motor and transmitting data with the outside. The motor 2 may be a stepping motor.

As shown in figure 5, the guide pipe 6 can be arranged at the lower end of the funnel 3, thus, the utility model can be used as a food outlet, and meanwhile, according to the arrangement of different cages, the guide pipe can be connected with other food feeding devices to achieve the effect of accurate feeding.

As shown in fig. 6, a main control chip, a wireless module and a counter connected to the main control chip are arranged on the PCB 6, and when the device is installed with a camera, the camera can be connected to the main control chip through a data interface, and meanwhile, the main control chip is connected to a motor and a buzzer for alarm. The wireless module can adopt a wifi module.

The main control chip adopts a LAP15W4K58S4 chip, and circuit diagrams in the embodiments are shown in fig. 7 and 8.

In use, the wheel 5 is able to block feed from passing through the hopper 3 in a resting state. The main control chip can send the rotation instruction to motor 2 after receiving remote signal through wireless module, and motor 2 is rotatory according to setting for the uniform velocity of speed, can set for and receive the rotation instruction at every turn after, swiveling wheel 5 all can carry out the clockwise rotation with time as the unit to reach down and eat the function. Wherein, the remote signal can be sent by the mobile phone of the user and is transmitted through the network.

Considering that when the motor is directly adopted for driving, if the feed is bonded, the running resistance of the motor is increased, and the feed is difficult to rotate for feeding. A buffer wheel device as shown in fig. 9 can be added between the motor 2 and the rotating wheel 5, the buffer wheel is divided into a main buffer wheel 7 and a secondary buffer wheel 8, the structure of the main buffer wheel 7 is the same as that of the secondary buffer wheel 8, the circumferential surfaces of the main buffer wheel and the secondary buffer wheel are uniformly provided with rotating teeth as shown in fig. 10, and the arc distance between the rotating teeth is 3-8 times of the width of the rotating teeth. The motor 2 is fixedly connected with the main buffer rotating wheel 7 through a rotating shaft 21, and the central shaft is fixedly connected with the buffer rotating wheel 8 through a secondary rotating shaft 22.

After motor 2 starts, main buffering runner 7 drives and rotates from buffering runner 8, if take place the too big time that makes motor 2 unable normal rotation of resistance, then motor 2 can reverse, eats down from another direction, when reversing, because there is the distance between the commentaries on classics tooth, just can provide a thrust that has started, overcomes the problem of eating the difficulty down. The rotation direction control of the motor 2 and the monitoring of whether the motor 2 can be normally started are controlled by the main control chip.

Further, the feed placing mode of the feed storage container 1 can be controlled, as shown in fig. 11, a conical screen 10 is installed in the feed storage container 1, and the screen 10 can control the feeding speed on one hand and buffer the pressure of the rotating wheel 5 on the other hand. The lowest position of the screen mesh 10 is provided with a pressure sensor for sensing the storage amount of the feed, and the pressure sensor is connected to the PCB 6 through a data line and sends a signal to the main control chip.

The utility model provides a device is light and handy nimble, can be applicable to any chicken farm. Compared with large-scale equipment, the volume and the constituent parts are greatly reduced. The light weight of the product can lead the product to be hung on any independent coop, and the noise is not large, thus leading the poultry not to be easily frightened.

Claims (10)

1. The utility model provides a long-range chicken feeding equipment based on thing networking which characterized in that: the feed hopper sequentially comprises a feed storage container, a fixed frame and a hopper from top to bottom, wherein a motor, a rotating wheel and a PCB (printed circuit board) are arranged in the fixed frame, and the motor is connected with the rotating wheel; the PCB circuit board is connected with the motor, can be through receiving remote signal control motor operation, and then drive the swiveling wheel rotatory for the fodder that the swiveling wheel drove in the fodder storage container turns to the funnel and accomplishes and eat down.

2. The remote chicken feeding equipment based on the internet of things of claim 1, wherein: the fixed frame is divided into a motor mounting area and a feed discharging area, a motor is mounted in the motor mounting area, the feed discharging area is divided into a discharging area in the middle and expansion areas at two ends, a rotating wheel is mounted in the discharging area, and a PCB is mounted in the expansion areas.

3. The remote chicken feeding equipment based on the internet of things as claimed in claim 2, wherein: the bottom of the feed storage container is provided with a small opening which is vertically communicated with the feeding area, the upper end of the feeding area is communicated with the bottom of the feed storage container, and the lower end of the feeding area is communicated with the top of the hopper.

4. The remote chicken feeding equipment based on the internet of things of claim 1, wherein: the swiveling wheel comprises a right leakage-proof wall, a left leakage-proof wall, a central shaft and fan blades, wherein the two ends of the central shaft are respectively fixedly connected with the middle part of the right leakage-proof wall and the middle part of the left leakage-proof wall, a plurality of groups of fan blades are arranged on the central shaft, and the left end and the right end of each fan blade are respectively connected to the left leakage-proof wall and the right leakage-proof wall.

5. The remote chicken feeding equipment based on the Internet of things of claim 4, wherein: the leakage-proof wall, the central shaft and the fan blades are integrally formed.

6. The remote chicken feeding equipment based on the internet of things of claim 1, wherein: the motor is connected with a rotating shaft, and the rotating shaft penetrates through the central shaft and is in interference fit with the central shaft, so that the central shaft can be driven to rotate; the rotating shaft is fixed on the blanking area of the fixed frame through a bearing seat.

7. The remote chicken feeding equipment based on the internet of things of claim 1, wherein: the PCB circuit board is provided with a main control chip, a wireless module, a counter, a motor and a buzzer for alarming, wherein the wireless module, the counter, the motor and the buzzer are connected with the main control chip.

8. The remote chicken feeding equipment based on the internet of things of claim 1, wherein: under the condition that the camera is installed on the equipment, the camera can be connected to the main control chip through the data interface.

9. The remote chicken feeding equipment based on the internet of things of claim 1, wherein: the motor passes through buffering runner device drive swiveling wheel, and buffering runner device is including relative setting and the same main buffering runner of structure and from buffering runner, and the structure of two buffering runners evenly sets up the commentaries on classics tooth on the circumferential surface of runner body, and the pitch arc distance between the commentaries on classics tooth is 3-8 times of commentaries on classics tooth width.

10. The remote chicken feeding equipment based on the internet of things of claim 1, wherein: a conical screen is installed in the feed storage container, a pressure sensor is arranged at the lowest position of the screen, and the pressure sensor is connected with the PCB.

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