CN115053832A - Feed conversion rate monitoring system and method for flat-breeding chickens - Google Patents

Abstract

The invention discloses a feed conversion rate monitoring system and a monitoring method for flat-breeding chickens, wherein the monitoring system comprises a frame, a door plate, a feed trough, a feed weighing device, a chicken weighing device, a feed adding device, an identity recognition device, a central control device and a central processing device, wherein an accommodating cavity is arranged in the frame, the door plate is arranged at the front end of the accommodating cavity through a wind bracing mechanism, and the chicken weighing device is arranged in the accommodating cavity; the feed trough is arranged on the frame through the feed weighing device, and a feeding hole is formed in the rear plate of the frame; the feed adding device is positioned above the feed trough; the identity recognition device is arranged on the rear plate of the frame; the chicken weighing device, the feed weighing device, the identity recognition device and the feed adding device are all connected with the central control device, and the central control device is connected with the central processing device. The invention can realize the automatic addition and storage of the feed and has high automation degree. Compared with artificial feeding, the method is more accurate and efficient, reduces the waste of feed and can also reduce the labor cost.

Description

Feed conversion rate monitoring system and method for flat-breeding chickens

Technical Field

The invention relates to a monitoring technology, in particular to a feed conversion rate monitoring system and a monitoring method for flat-breeding chickens.

Background

In the broiler breeding process, the concentrated feed cost accounts for about 70% of the total breeding cost, and the improvement of the feed conversion rate is very obvious for improving the economic benefit of broiler breeding, so that the method is always the key point in breeding work. Most of the current chicken factories still measure the weight increment and the feed consumption of the chickens in a manual measurement mode, the efficiency is low, the precision is low, the feed is wasted to a certain extent, and the labor cost is increased year by year.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provides a feed conversion rate monitoring system for raised chickens. The feed conversion rate monitoring system for the flat-breeding chickens has the advantages of being efficient, high in precision, labor-saving and the like.

Another object of the present invention is to provide a method for monitoring feed conversion ratio for raised chickens.

The purpose of the invention is realized by the following technical scheme: the feed conversion rate monitoring system for the flat-breeding chickens comprises a frame, a door plate, a feed trough, a feed weighing device, a chicken weighing device, a feed adding device, an identity recognition device, a central control device and a central processing device, wherein a containing cavity for single chicken to stand is formed in the frame; the feed trough is arranged behind the frame through the feed weighing device, and a feeding hole is formed in the rear plate of the frame; the feed adding device is arranged at the top end of the frame and is positioned above the feed trough; the identity recognition device is arranged on a rear plate of the frame; the chicken weighing device, the feed weighing device, the identity recognition device and the feed adding device are all connected with the central control device, and the central control device is connected with the central processing device.

Preferably, the fodder weighing device includes fodder weighing sensor and supporting platform, supporting platform is fixed in the back of frame, fodder weighing sensor installs in supporting platform, the manger is installed on fodder weighing sensor, fodder weighing sensor is connected with central control unit.

Preferably, the supporting platform comprises 2 support legs and a bearing platform, and two ends of the bearing platform are respectively connected with the 2 support legs through adjusting right-angle corner pieces; the fodder weighing sensor is arranged on the bearing platform.

Preferably, the chicken weighing device comprises a chicken weighing sensor and a bearing plate, the chicken weighing sensor is installed on the bottom surface of the accommodating cavity, and the bearing plate is arranged on the chicken weighing sensor.

Preferably, the central control device comprises a microcontroller, a reference power supply, an amplifier and an analog-to-digital converter, wherein the reference power supply is connected with the analog-to-digital converter, the chicken weighing device and the feed weighing device through the amplifier; the chicken weighing device and the feed weighing device are connected with an analog-to-digital converter, and the analog-to-digital converter is connected with the microcontroller; the identity recognition device and the feed adding device are connected with the microcontroller through interfaces; the microcontroller pair is connected with the central processing unit through a USB interface.

Preferably, the wind bracing mechanism comprises a connecting rod, a sliding block and a sliding rail, the sliding rail is installed on the inner side wall of the frame, one end of the connecting rod is hinged to the door panel, the other end of the connecting rod is connected with the sliding rail through the sliding block, and the sliding block is provided with a locking screw.

Preferably, the feed adding device comprises a funnel material tower, a steering engine switch and a shifting piece, the funnel material tower is installed above the feed trough through a fixing frame, the shifting piece is arranged at a discharge hole of the funnel material tower through the steering engine switch, and the steering engine switch is connected with the central control device.

Preferably, the outer side of the frame is provided with a partition plate.

Preferably, the central processing unit is a touch control all-in-one machine or a computer.

A feed conversion rate monitoring method for flat-breeding chickens adopts the feed conversion rate monitoring system for the flat-breeding chickens, and comprises the following steps:

s1, the identity recognition device reads the identity information of the chicken and transmits the identity information to the central control device;

s2, the feed weighing device and the chicken weighing device respectively measure the weight of the feed and the weight of the chicken, and upload the data of the weight of the feed and the weight of the chicken and the identity information of the chicken to the central processing device;

s3, after the chickens finish eating, the feed weighing device and the chicken weighing device respectively measure the weight of the feed and the weight of the chickens, and the identity information of the chickens and the data of the measured feed weight and the measured chicken weight are uploaded to the central processing device;

s4, uploading all the received data to a cloud end by the central processing device, and backing up the data locally;

and S5, calculating the total weight of the feed eaten by each chicken and the weight gain of the chicken according to the data stored in the cloud, thereby calculating the feed conversion rate of the chicken.

Compared with the prior art, the invention has the following advantages:

1. the feed conversion rate monitoring system for the flat-breeding chickens is mainly composed of a frame, a door plate, a feed trough, a feed weighing device, a chicken weighing device, a feed adding device, an identity recognition device, a central control device and a central processing device, so that the data acquisition of the weight, the feed intake, the identity information of the chicken and the like is realized, meanwhile, the automatic addition and storage of the feed are realized, and the automation degree is high. Compared with artificial feeding, the method is more accurate and efficient, reduces the waste of feed and can also reduce the labor cost.

2. The feed conversion rate monitoring system for the flat-breeding chickens adopts the identity recognition device, and the accommodating cavity for allowing a single chicken to stand is arranged in the frame, so that the feeding of the single chicken is controlled, and the monitoring result is more accurate.

3. The feed conversion rate monitoring system for the flat-breeding chickens adopts the central control device and the central processing device to control other components, realizes man-machine interaction, improves the automation degree, clearly displays the results, and is simple to operate.

4. The monitoring method is realized based on the feed conversion rate monitoring system for the flat-breeding chickens, and the feed intake of a single chicken can be accurately monitored, so that the feed conversion rate is accurately monitored, and a scientific basis is provided for feeding.

Drawings

FIG. 1 is a schematic diagram of a first directional structure of a feed conversion ratio monitoring system for raised chickens of the present invention.

FIG. 2 is a schematic diagram of a second direction of the feed conversion ratio monitoring system for raised chickens of the present invention.

FIG. 3 is a top view of a feed conversion ratio monitoring system for flat-fed chickens of the present invention.

FIG. 4 is a front view of a feed conversion ratio monitoring system for flat-fed chickens of the present invention.

FIG. 5 is a side view of a feed conversion ratio monitoring system for flat-fed chickens of the present invention.

Fig. 6 is a front view of the feed weighing device of the present invention.

Fig. 7 is a top view of the feed weighing device of the present invention.

Fig. 8 is a schematic structural view of the feed supplement device of the present invention.

Fig. 9 is a first page of the circuit diagram of the central control apparatus of the present invention.

Fig. 10 is a second page of the circuit diagram of the central control apparatus of the present invention.

Wherein, 1 is a frame, 2 is a door panel, 3 is a feeding trough, 4 is a feeding weighing device, 401 is a feeding weighing sensor, 402 is a supporting platform, 403 is a supporting leg, 404 is a bearing platform, 5 is a chicken weighing device, 501 is a chicken weighing sensor, 502 is a bearing plate, 6 is a feeding adding device, 601 is a hopper material tower, 602 is a steering engine switch, 603 is a shifting sheet, 7 is an identity recognition device, 8 is a central control device, 801 is a microcontroller, 802 is a BOOT module, 803 is an analog-digital isolation, 804 is an analog-digital converter, 805 is a reset key module, 806 is an external crystal oscillator module, 807 is an indicator light, 808 is an LDO module, 809 is a USB interface, 810 is a power supply ripple eliminating module, 811 is an amplifier, 812 is a steering engine interface, 813 is a reference power supply, 814 is a sensor interface, 815 is a DC-DC module, 816 is a TTL rotating USB module, 817 is an RFID card reader interface, 9 is a central processing unit, 10 is a containing cavity, 11 is a wind bracing mechanism, 1101 is a connecting rod, 1102 is a sliding block, 1103 is a sliding rail, 12 is a feeding hole, and 13 is a partition board.

Detailed Description

The invention is further illustrated by the following figures and examples.

The feed conversion rate monitoring system for the raised chickens shown in fig. 1 to 5 comprises a frame, a door plate, a feed trough, a feed weighing device, a chicken weighing device, a feed adding device, an identity recognition device, a central control device and a central processing device, wherein a containing cavity for single chicken to stand is formed in the frame; the feed trough is arranged behind the frame through the feed weighing device, and a feeding hole is formed in the rear plate of the frame; the feed adding device is arranged at the top end of the frame and is positioned above the feed trough; the identity recognition device is arranged on the rear plate of the frame; the chicken weighing device, the feed weighing device, the identity recognition device and the feed adding device are all connected with the central control device, and the central control device is connected with the central processing device. Specifically, the identity recognition device adopts an RFID card reader JY-L8600 which works in a frequency band of 134.2KHz and accords with the ISO-11784/5 standard, and the identity recognition device is connected with the central control device through an RS-232 protocol. The identity recognition device is arranged on the rear plate of the frame and is positioned below the feed weighing device. The central processing device is a touch control all-in-one machine or a computer.

As shown in fig. 6 and 7, the fodder weighing device comprises a fodder weighing sensor and a supporting platform, the supporting platform is fixed at the back of the frame, the fodder weighing sensor is installed on the supporting platform, the fodder trough is installed on the fodder weighing sensor, and the fodder weighing sensor is connected with the central control device. The supporting platform comprises 2 support legs and a bearing platform, and two ends of the bearing platform are respectively connected with the 2 support legs through adjusting right-angle corner pieces; the fodder weighing sensor is installed in the plummer. The bearing platform for placing the feed weighing sensor and the feed trough is connected with the support legs through the right-angle adjusting corner pieces, so that the height of the bearing platform can be conveniently adjusted to adapt to feeding of the chickens in each growth period. In the using process, the weight of the feed in the feed trough is detected before the chickens eat the feed, and the weight is transmitted to the central processing device; when the chickens eat the feed, the feed weighing sensor detects the weight of the feed in the feed trough again and transmits the weight to the central processing device, and the difference value of the weights of the front and the back two times is the weight of the feed eaten by the chickens.

As shown in fig. 4, the chicken weighing device comprises a chicken weighing sensor and a bearing plate, the chicken weighing sensor is installed on the bottom surface of the accommodating cavity, and the bearing plate is arranged on the chicken weighing sensor. Specifically, whole chicken weighing device sets up and is holding the intracavity, and the chicken of feed stands on the loading board, and the loading board adopts the wire netting board to make. The chicken weighing device weighs the weight of the chicken before and after eating the feed according to the principle of the feed weighing device, so that the increment of the chicken before and after eating the feed is determined, and the feed conversion rate is calculated by using the weight difference value obtained by the increment and the feed weighing device in the front and back measurement.

The central control device comprises a microcontroller, a reference power supply, an amplifier and an analog-to-digital converter, wherein the reference power supply is connected with the analog-to-digital converter, the chicken weighing device and the feed weighing device through the amplifier; the chicken weighing device and the feed weighing device are connected with the analog-digital converter; the analog-to-digital converter is connected with the microcontroller; the identity recognition device and the feed adding device are connected with the microcontroller through interfaces; the microcontroller pair is connected with the central processing unit through a USB interface. Specifically, the microcontroller of this embodiment selects an STM32F103C8T6 chip, the reference power supply selects an REF5025aid voltage reference chip, the amplifier selects an AD8397ARZ operational amplifier, and the analog-to-digital conversion chip selects an ADs1256IDBR analog-to-digital conversion chip. The reference power supply outputs 2.5V reference voltage with suppressed temperature drift, and the reference voltage is converted into 2.5V voltage through the amplifier to be used as comparison voltage of the analog-to-digital converter and 7.5V voltage to be used as power supply of the cantilever weighing sensor. The cantilever beam weighing sensor receives power supply through the sensor interface and transmits an analog voltage signal to the circuit, and the analog-to-digital converter converts the analog voltage signal into a digital signal and sends the digital signal to the microcontroller. The identity recognition device sends the identity code of the chicken to the microcontroller through the RFID card reader interface. The microcontroller controls the feed adding device to send signals through the steering engine interface. The microcontroller preprocesses the signal and then sends the signal to the central processing unit through the USB interface. The schematic circuit diagram is shown in fig. 9 and 10, wherein the power supply ripple elimination module is configured to convert an externally input 12V high ripple voltage into a 9V low ripple voltage, and provide a high-precision power supply for the identity recognition device through the RFID card reader interface; the DC-DC module is used for converting an externally input 12V voltage into a 5V voltage, and supplying power to the feed adding device through the steering engine interface and also supplying power to the LDO module; the LDO module is used for converting 5V voltage output by the DC-DC module into 3.3V voltage and supplying power to each chip in the circuit; the indicating lamp is used for indicating the working state of the circuit; the TTL-to-USB module is used for establishing the connection between the microcontroller and the central processing unit through a USB interface; the BOOT module is used for controlling the working mode of the microcontroller; the reset key module is used for controlling the reset of the microcontroller, and the external crystal oscillator module provides an external clock signal for the microcontroller; analog-to-digital isolation isolates the analog portion of the circuit from the digital portion, increasing operating accuracy.

The wind bracing mechanism comprises a connecting rod, a sliding block and a sliding rail, the sliding rail is mounted on the inner side wall of the frame, one end of the connecting rod is hinged to the door panel, the other end of the connecting rod is connected with the sliding rail through the sliding block, and the sliding block is provided with a locking screw. The degree of opening through wind brace mechanism adjustment door plant further ensures when the feed, holds the intracavity and only stands a chicken to the degree of accuracy of protection detection structure.

The feed adding device comprises a funnel material tower, a steering engine switch and a shifting piece, the funnel material tower is installed above the feed trough through a fixing frame, the shifting piece is arranged at a discharge hole of the funnel material tower through the steering engine switch, and the steering engine switch is connected with the central control device. Concretely, when the fodder in the manger is not enough, central control unit sends control information, starts the steering wheel start, and certain angle is placed to steering wheel on-off control plectrum, opens the opening of funnel material tower, and the fodder falls into the manger by the dead weight, and when reaching certain weight back, the opening of funnel material tower is closed to the steering wheel control plectrum.

And a partition plate is arranged on the outer side of the frame. The baffle makes the closure that holds the chamber better, avoids other chickens to influence and holds the chicken in the chamber and only eats.

A feed conversion rate monitoring method for flat-breeding chickens adopts the feed conversion rate monitoring system for the flat-breeding chickens, and comprises the following steps:

s1, the identity recognition device reads the identity information of the chicken and transmits the identity information to the central control device;

s2, the feed weighing device and the chicken weighing device respectively measure the weight of the feed and the weight of the chicken, and upload the data of the weight of the feed, the weight of the chicken and the identity information of the chicken to the central processing device;

s3, after the chickens finish eating, the feed weighing device and the chicken weighing device respectively measure the weight of the feed and the weight of the chickens, and the identity information of the chickens and the data of the measured feed weight and the measured chicken weight are uploaded to the central processing device;

s4, uploading all the received data to a cloud end by the central processing device, and backing up the data locally;

and S5, calculating the total weight of the feed eaten by each chicken and the weight increment of the chicken according to the data stored in the cloud, thereby calculating the feed conversion rate of the chicken.

The above-mentioned embodiments are preferred embodiments of the present invention, and the present invention is not limited thereto, and any other modifications or equivalent substitutions that do not depart from the technical spirit of the present invention are included in the scope of the present invention.

Claims (10)

1. A feed conversion rate monitoring system for raising chickens which characterized in that: the chicken weighing device is arranged on the bottom surface of the accommodating cavity; the feed trough is arranged behind the frame through the feed weighing device, and a feeding hole is formed in the rear plate of the frame; the feed adding device is arranged at the top end of the frame and is positioned above the feed trough; the identity recognition device is arranged on the rear plate of the frame; the chicken weighing device, the feed weighing device, the identity recognition device and the feed adding device are all connected with the central control device, and the central control device is connected with the central processing device.

2. The feed conversion ratio monitoring system for flat-fed chickens of claim 1, wherein: the fodder weighing device includes fodder weighing sensor and supporting platform, supporting platform is fixed in the back of frame, fodder weighing sensor installs in supporting platform, the manger is installed on fodder weighing sensor, fodder weighing sensor is connected with central control device.

3. The feed conversion ratio monitoring system for flat-fed chickens of claim 2, wherein: the supporting platform comprises 2 support legs and a bearing platform, and two ends of the bearing platform are respectively connected with the 2 support legs through adjusting right-angle corner pieces; the fodder weighing sensor is installed in the plummer.

4. The feed conversion ratio monitoring system for flat-fed chickens of claim 1, wherein: the chicken weighing device comprises a chicken weighing sensor and a bearing plate, the chicken weighing sensor is installed on the bottom surface of the accommodating cavity, and the bearing plate is arranged on the chicken weighing sensor.

5. The feed conversion ratio monitoring system for flat-fed chickens of claim 1, wherein: the central control device comprises a microcontroller, a reference power supply, an amplifier and an analog-to-digital converter, wherein the reference power supply is connected with the analog-to-digital converter, the chicken weighing device and the feed weighing device through the amplifier; the chicken weighing device and the feed weighing device are connected with an analog-to-digital converter, and the analog-to-digital converter is connected with the microcontroller; the identity recognition device and the feed adding device are connected with the microcontroller through interfaces; the microcontroller pair is connected with the central processing unit through a USB interface.

6. The feed conversion ratio monitoring system for flat-fed chickens of claim 1, wherein: the wind bracing mechanism comprises a connecting rod, a sliding block and a sliding rail, the sliding rail is mounted on the inner side wall of the frame, one end of the connecting rod is hinged to the door panel, the other end of the connecting rod is connected with the sliding rail through the sliding block, and the sliding block is provided with a locking screw.

7. The feed conversion ratio monitoring system for flat-fed chickens of claim 1, wherein: the feed adding device comprises a funnel material tower, a steering engine switch and a shifting piece, the funnel material tower is installed above the feed trough through a fixing frame, the shifting piece is arranged at a discharge hole of the funnel material tower through the steering engine switch, and the steering engine switch is connected with the central control device.

8. The feed conversion ratio monitoring system for flat-fed chickens of claim 1, wherein: and a partition plate is arranged on the outer side of the frame.

9. The feed conversion ratio monitoring system for flat-fed chickens of claim 1, wherein: the central processing device is a touch control all-in-one machine or a computer.

10. The feed conversion rate monitoring method for the flat-breeding chickens is characterized in that the feed conversion rate monitoring system for the flat-breeding chickens, which is used for any one of claims 1 to 9, comprises the following steps:

s1, the identity recognition device reads the identity information of the chicken and transmits the identity information to the central control device;

s2, the feed weighing device and the chicken weighing device respectively measure the weight of the feed and the weight of the chicken, and upload the data of the weight of the feed, the weight of the chicken and the identity information of the chicken to the central processing device;

s3, after the chickens finish eating, the feed weighing device and the chicken weighing device respectively measure the weight of the feed and the weight of the chickens, and the identity information of the chickens and the data of the measured feed weight and the measured chicken weight are uploaded to the central processing device;

s4, uploading all the received data to a cloud end by the central processing device, and backing up the data locally;

and S5, calculating the total weight of the feed eaten by each chicken and the weight gain of the chicken according to the data stored in the cloud, thereby calculating the feed conversion rate of the chicken.

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