CN109443505B - Weight superposition measurement type aquaculture high-bed internet-of-things weighing system and application method thereof - Google Patents

Abstract

The invention relates to the technical field of weight measurement devices, in particular to a weighing system of an Internet of things for a high-rise cultivation bed for weight superposition measurement, which comprises a high-rise cultivation bed and a weighing feeding trough, wherein the high-rise cultivation bed comprises a fence, a bottom plate for a leak, weighing support legs and a connecting piece, the weighing support legs are fixedly connected with the bottom plate for a leak and the fence through the connecting piece, the weighing feeding trough is arranged in the high-rise cultivation bed, the high-rise cultivation bed can weigh livestock in the high-rise bed and upload weighing data to a cloud, and the weighing feeding trough bears the measurement of the total weight of the trough and the trough content.

Description

Weight superposition measurement type aquaculture high-bed internet-of-things weighing system and application method thereof

Technical Field

The invention relates to the technical field of weight measurement devices, in particular to a weight superposition measurement aquaculture high-bed internet-of-things weighing system and a use method thereof.

Background

Body weight of the growing animal is an important data. For commercial pigs, the aim of breeding is to convert feed into pork, and animal source food such as animal protein is provided for human beings. Weight change is an important data index of commercial pigs and other farmed animals, and a continuous, convenient and low-cost acquisition method is lacking at present. The feed cost is more than two thirds of the commercial pig raising cost, and the feed conversion rate is particularly important to the meat production cost of the pig industry.

For example, pigs are kept on a nursery bed, wherein the weight of the pigs is changed continuously, even the weight of the pigs varies greatly in one day, the feed feeding trough is generally an automatic free feeding trough, and the feed in the trough storage barrel is a changed value (filling and continuous feeding). Because of the bottom of the leak, the fecal matter on the nursing bed may be considered as not being a variable in weight. The incubator's equipment tare weight is a steady and constant value. Thus, the weight of the piglet group and thus the average weight can be obtained by measuring two variables, namely the total weight of the whole nursery bed and the weight of the feed in the trough. In the case of commercial pigs, the average weight can be obtained without distinguishing each individual.

Disclosure of Invention

The invention aims to provide a weight superposition measurement type high-bed Internet of things weighing system for cultivation and a use method thereof, which are used for solving the problem that the weight in the livestock cultivation process cannot be accurately monitored in the prior art.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a high bed thing networking weighing system of breeding of weight stack measurement, includes breeds high bed, the feeding trough of weighing, breed high bed and include rail, leak bottom plate, weigh stabilizer blade and connecting piece, weigh stabilizer blade and leak bottom plate and rail and pass through connecting piece fixed connection, the feeding trough of weighing is installed in breeding high bed, breed high bed and can weigh and upload the weighing data to the high in the bed livestock, the feeding trough of weighing bears the measurement of silo and silo content gross weight.

Preferably, the weighing system further comprises an electric heating plate for cultivation, the electric heating plate for cultivation is arranged on the bottom plate of the leak, and the electric heating plate for cultivation is used for detecting weighing data of livestock on the electric heating plate for cultivation and uploading the weighing data to the cloud

Preferably, the stabilizer blade of weighing includes first weighing sensor, first AD module, first thing networking data transmission module and protective housing, first weighing sensor sets up on the bottom stabilizer blade of breeding the high bed, first AD module is connected with first weighing sensor's output, first material net data transmission module's input is connected with first AD module's output, first material net data transmission module's transmitting end and outside high in the clouds communication, the protective housing is used for the parcel protection to first weighing sensor, first AD module, first thing networking data transmission module.

Preferably, the weighing feeding trough comprises a pressure sensor, a second AD module, a second networking data transmission module and a feeding trough, wherein the pressure sensor is arranged at the bottom of the feeding trough, the second AD module is connected with the output end of the pressure sensor, the input end of the second networking data transmission module is connected with the output end of the second AD module, and the transmitting end of the second networking data transmission module is communicated with the external cloud.

Preferably, the electric heating plate for cultivation comprises a hard electric heating plate, a second weighing sensor, a third AD module and a third Internet of things data transmission module, the second weighing sensor is arranged at the bottom of the hard electric heating plate, the input end of the third AD module is connected with the output end of the second weighing sensor, the input end of the third Internet of things data transmission module is connected with the output end of the third AD module, and the transmitting end of the third Internet of things data transmission module is communicated with the external cloud.

Preferably, the high cultivating bed is also provided with a separation plate, and the high cultivating bed is separated into an obstetric table and an incubator by the separation plate.

Preferably, the electric heating plate for cultivation is positioned on the bottom plate of the leakage seam at the side of the nursing bed.

Preferably, an insulation box is arranged on the bottom plate of the leakage seam at the side of the incubator, and the electric heating plate for cultivation is arranged in the insulation box.

In order to achieve the above purpose, the present invention further provides the following technical solutions: the application method of the weighing system of the Internet of things for cultivating the high bed by weight superposition measurement comprises the following steps:

(1) Feeding animals on a high bed, and fixedly connecting a weighing trough with the high bed;

(2) The total weight of the high bed and the weight of the feed in the trough are transmitted to the cloud end by the data transmission module of the Internet of things;

(3) Removing the skin weight according to the difference between the measured total weight of the high bed and the weight of the feed in the trough to obtain the weight of the animals raised on the high bed;

(4) And in the preset time period, the feed conversion rate of the growing animal can be obtained through the weight change of the feed in the trough and the weight change of the animal.

Preferably, the total weight of the high bed includes the sum of the total weight of the high bed, the trough, the feed in the trough, and the animals raised on the high bed.

In order to achieve the above purpose, the present invention further provides the following technical solutions: the application method of the weighing system of the Internet of things for cultivating the high bed by weight superposition measurement comprises the following steps:

(1) Feeding female animals on the obstetric table side and feeding young animals on the nursing table side;

(2) The total weight of the high bed, the weight of the feed in the trough and the weight measured on the electric heating plate for cultivation are respectively transmitted to the cloud end by the data transmission module of the Internet of things;

(3) When the young animals are all positioned in the incubator, the weight of all young animals is measured by the electric heating plate for breeding, so that the weight change of the whole litter young animals is obtained;

(4) Subtracting the sum of the weight of the feed in the trough and the weight of the young animals according to the total weight of the high bed to obtain the weight of the female animals;

(5) And evaluating the quality of the female animals and the feed in the lactation period according to the weight change of the female animals.

Preferably, the animals according to step (1) include a female animal and its young animals, and when raising the female animal and its young animals, the female animal is raised on the obstetric table side and the young animals are raised together on the nursing table side.

Preferably, the total weight of the high bed includes the sum of the total weight of the high bed, the trough, the feed in the trough, the female and the young animals raised on the high bed and the electric heating plate for raising.

Compared with the prior art, the invention has the beneficial effects that: the internet of things technology enables real-time acquisition and real-time calculation of large-scale data to be possible without human intervention. The real-time uploading of the weighing data (which may be set to upload a weighing value at regular intervals, such as 10 seconds) allows the fluctuation of the weighing data caused by animal exercise to be eliminated by a large amount of data. Cloud recording and cloud computing enable large-scale data to be automatically collected and tidied.

The invention fuses a weighing system on common cultivation equipment by utilizing the technology of the Internet of things, and obtains animal weight and feed consumption weight by utilizing superposition weighing, thereby obtaining a growth curve and feed conversion rate (feed conversion ratio).

Drawings

FIG. 1 is a system block diagram of the present invention;

FIG. 2 is a high bed system without a obstetric table of the present invention;

Fig. 3 is a high bed system with beds of the present invention.

In the figure: 1. culturing a high bed; 2. weighing feeding trough; 3. an electric heating plate for cultivation; 4. a fence; 5. a bottom plate of the leak; 6. weighing support legs; 7. a first load cell; 8. a first AD module; 9. the first Internet of things data transmission module; 10. a pressure sensor; 11. a second AD module; 12. a second networking data transmission module; 13. a feeding trough; 14. a hard electric heating plate; 15. a second load cell; 16. a third AD module; 17. the third Internet of things data transmission module; 18. and a partition plate.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 3, the present invention provides a technical solution: the utility model provides a high bed thing networking weighing system of breed of weight stack measurement, is including breeding high bed 1 (breed high bed 1 including independent piecing's rail 4, high bed, low bed, can be used for the rail 4 apparatus of breed usefulness), weighing feeding groove 2, breed high bed 1 includes rail 4, leak bottom plate 5 (because leak bottom plate 5, the excrement and urine on the bed can be considered weight not variable), weighing stabilizer blade 6 and connecting piece, weighing stabilizer blade 6 passes through connecting piece fixed connection with leak bottom plate 5 and rail 4, weighing feeding groove 2 installs in breeding high bed 1, breed high bed 1 can weigh and upload weighing data to the high cloud to the livestock in the high bed, weighing feeding groove 2 bears the measurement of silo and silo content gross weight.

The bottom plate of leaking seam includes field font braced frame and sets up the leak board in every frame on braced frame, is setting for the braced frame of different areas according to the model size of breeding the high bed, forms a mouthful font frame, a day font frame, field font frame, all is used for installing the leak board in every frame for form whole bottom plate of leaking seam.

The weighing system further comprises an electric heating plate 3 for cultivation, the electric heating plate 3 for cultivation is arranged on the leak bottom plate 5, and the electric heating plate 3 for cultivation is used for detecting weighing data of livestock on the electric heating plate 3 for cultivation and uploading the weighing data to the cloud.

The weighing support leg 6 comprises a first weighing sensor 7, a first AD module 8, a first Internet of things data transmission module and a protective shell, wherein the first weighing sensor 7 is arranged on the bottom support leg of the high-rise cultivation bed 1, the first AD module 8 is connected with the output end of the first weighing sensor 7, the input end of the first material network data transmission module 9 is connected with the output end of the first AD module 8, the transmitting end of the first material network data transmission module 9 is communicated with the external cloud, and the protective shell is used for wrapping and protecting the first weighing sensor 7, the first AD module 8 and the first Internet of things data transmission module.

The weighing feeding trough 2 comprises a pressure sensor 10, a second AD module 11, a second networking data transmission module and a feeding trough 13 (the feeding trough 13 adopts an automatic free feed trough), the pressure sensor 10 is arranged at the bottom of the feeding trough 13, the second AD module 11 is connected with the output end of the pressure sensor 10, the input end of the second networking data transmission module is connected with the output end of the second AD module 11, and the transmitting end of the second networking data transmission module 12 is communicated with the external cloud.

The electric hot plate 3 for cultivation comprises a hard electric hot plate 14, a second weighing sensor 15, a third AD module 16 and a third Internet of things data transmission module, wherein the second weighing sensor 15 is arranged at the bottom of the hard electric hot plate 14, the input end of the third AD module 16 is connected with the output end of the second weighing sensor 15, the input end of the third Internet of things data transmission module is connected with the output end of the third AD module 16, and the transmitting end of the third Internet of things data transmission module 17 is communicated with an external cloud.

The data transmission module of the Internet of things is a wireless communication chip, and the wireless communication function is realized through the existing wireless communication chip.

The high cultivating bed 1 is also provided with a separation plate 18, and the high cultivating bed 1 is separated into an obstetric table and an incubator by the separation plate 18.

The electric heating plate 3 for cultivation is positioned on the bottom plate 5 of the leakage seam at the side of the nursing bed.

An insulation box is arranged on a leak bottom plate 5 at the side of the incubator, and an electric heating plate 3 for cultivation is arranged in the insulation box.

As shown in fig. 2, a method for using the weighing system of the internet of things for the cultivation high bed 1 by weight superposition measurement comprises the following steps:

(1) Feeding animals on a high bed, and fixedly connecting a weighing trough with the high bed;

(2) The total weight of the high bed and the weight of the feed in the trough are transmitted to the cloud end by the data transmission module of the Internet of things;

(3) Removing the tare according to the difference between the measured total weight of the high bed and the weight of the feed in the trough to obtain the weight of the animals raised on the high bed (when in calibration, a small weight can be used for calibrating the weighing trough, and then a larger weight is placed on the weighing trough (the accurate weight is not needed because the weighing trough has a weighing numerical value) to calibrate the weighing and breeding high bed 1);

(4) And in the preset time period, the feed conversion rate of the growing animal can be obtained through the weight change of the feed in the trough and the weight change of the animal.

The total weight of the high bed includes the sum of the total weight of the high bed, the trough, the feed in the trough and the animals raised on the high bed.

As shown in fig. 3, a method for using the weighing system of the internet of things for the cultivation high bed 1 by weight superposition measurement comprises the following steps:

(1) Feeding female animals on the obstetric table side and feeding young animals on the nursing table side;

(2) The total weight of the high bed, the weight of the feed in the trough and the weight measured on the electric heating plate 3 for cultivation are respectively transmitted to the cloud end by the data transmission module of the Internet of things;

(3) When the young animals are all positioned in the incubator, the weight of all young animals is measured by the electric heating plate 3 for cultivation, so that the weight change of the young animals in the whole litter is obtained;

(4) Subtracting the sum of the weight of the feed in the trough and the weight of the young animals according to the total weight of the high bed to obtain the weight of the female animals;

(5) And evaluating the quality of the female animals and the feed in the lactation period according to the weight change of the female animals.

The total weight of the high bed comprises the sum of the total weight of the high bed, the trough, the feed in the trough, the female and the young animals cultivated on the high bed and the electric heating plate 3 for cultivation.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. Breed high bed thing networking weighing system of weight stack measurement, its characterized in that: the high-speed livestock weighing and feeding trough comprises a high-speed livestock breeding bed and a weighing and feeding trough, wherein the high-speed livestock breeding bed comprises a fence, a leakage bottom plate, weighing support legs and connecting pieces, the weighing support legs are fixedly connected with the leakage bottom plate and the fence through the connecting pieces, the weighing and feeding trough is arranged in the high-speed livestock breeding bed, the high-speed livestock breeding bed can weigh livestock in the high-speed livestock breeding bed and upload weighing data to a cloud end, and the weighing and feeding trough is used for carrying out measurement on the total weight of the trough and the trough content;

The weighing system further comprises an electric heating plate for cultivation, the electric heating plate for cultivation is arranged on the bottom plate of the leak, and the electric heating plate for cultivation is used for detecting weighing data of livestock positioned on the electric heating plate for cultivation and uploading the weighing data to the cloud;

the using method of the weighing system comprises a first method or a second method, and the first method comprises the following steps:

(1) Feeding animals on a high bed, and fixedly connecting a weighing trough with the high bed;

(2) The total weight of the high bed and the weight of the feed in the trough are transmitted to the cloud end by the data transmission module of the Internet of things;

(3) Removing the skin weight according to the difference between the measured total weight of the high bed and the weight of the feed in the trough to obtain the weight of the animals raised on the high bed;

(4) In a preset time period, the feed conversion rate of the growing animals can be obtained through the weight change of the feed in the trough and the weight change of the animals;

in the method one, the total weight of the high bed comprises the sum of the total weight of the high bed, a trough, feed in the trough and animals cultivated on the high bed;

In the second method, a partition plate is arranged on the high cultivating bed, and the high cultivating bed is divided into an obstetric table and an incubator by the partition plate; the second method comprises the following steps:

(1) Feeding female animals on the obstetric table side and feeding young animals on the nursing table side;

(2) The total weight of the high bed, the weight of the feed in the trough and the weight measured on the electric heating plate for cultivation are respectively transmitted to the cloud end by the data transmission module of the Internet of things;

(3) When the young animals are all positioned in the incubator, the weight of all young animals is measured by the electric heating plate for breeding, so that the weight change of the whole litter young animals is obtained;

(4) Subtracting the sum of the weight of the feed in the trough and the weight of the young animals according to the total weight of the high bed to obtain the weight of the female animals;

(5) Evaluating the quality of the female livestock and the feed in the lactation period according to the weight change of the female livestock;

in the second method, the total weight of the high bed comprises the sum of the total weight of the high bed, a trough, feed in the trough, female and young animals cultivated on the high bed and a cultivation electric heating plate.

2. The weight stack measurement aquaculture high bed internet of things weighing system of claim 1, wherein: the utility model discloses a high-speed intelligent weighing system, including weighing stabilizer blade, first AD module, first thing networking data transmission module and protective housing, first weighing sensor sets up on the bottom stabilizer blade of breeding the high bed, first AD module is connected with first weighing sensor's output, first material net data transmission module's input is connected with first AD module's output, first material net data transmission module's transmitting end and outside high in the clouds communication, the protective housing is used for the parcel protection to first weighing sensor, first AD module, first thing networking data transmission module.

3. The weight stack measurement aquaculture high bed internet of things weighing system of claim 1, wherein: the weighing feeding trough comprises a pressure sensor, a second AD module, a second networking data transmission module and a feeding trough, wherein the pressure sensor is arranged at the bottom of the feeding trough, the second AD module is connected with the output end of the pressure sensor, the input end of the second networking data transmission module is connected with the output end of the second AD module, and the transmitting end of the second networking data transmission module is communicated with the external cloud.

4. The weight stack measurement aquaculture high bed internet of things weighing system of claim 1, wherein: the electric heating plate for cultivation comprises a hard electric heating plate, a second weighing sensor, a third AD module and a third Internet of things data transmission module, wherein the second weighing sensor is arranged at the bottom of the hard electric heating plate, the input end of the third AD module is connected with the output end of the second weighing sensor, the input end of the third Internet of things data transmission module is connected with the output end of the third AD module, and the transmitting end of the third Internet of things data transmission module is communicated with the external cloud.

5. The weight stack measurement aquaculture high bed internet of things weighing system of claim 1, wherein: the electric heating plate for cultivation is positioned on the bottom plate of the leakage seam at the side of the nursing bed.

6. The weight stack measurement aquaculture high bed internet of things weighing system of claim 1, wherein: an insulation box is arranged on a bottom plate of the leakage seam at the side of the incubator, and an electric heating plate for cultivation is arranged in the insulation box.