KR20210007595A - Pig Estrus Test Apparatus - Google Patents

Abstract

Conventional estrus measurement in pigs is inaccurate and inconvenient to the pigs because the estrus can be measured only by attaching a separate device to the pigs or observing the behavior change of the pigs with a camera device or the like. To solve such a problem, an automatic breeding device according to the present invention comprises an entrance door, a weight measuring part, a feeding part, and an exit door part. The weight measuring part comprises: a top plate composed of a rectangular top plate frame and a top plate wire mesh; and load cells placed in the middle of the long side of the top plate, at the four corners of the top plate, and at the lower part of the top plate. The estrus of a pig is determined from a change pattern of the weight of the pig measured by the six load cells and generated when the pig enters the automatic breeding device. According to the structure of the present invention, the gait of a pig can be analyzed, and thus a means for determining whether a pig is in estrus and whether the pig′s gait is normal or not is provided. Accordingly, pig breeding can be more scientifically performed.

Description

Pig Estrus Test Apparatus {Pig Estrus Test Apparatus}

The present invention relates to a pig estrus measurement device installed and used in an automatic pig breeding apparatus. In more detail, it relates to a technique for measuring estrus of a pig by improving a pig weight measurement device used in the automatic pig breeding device.

Prior art prior to the present invention, when an object is detected in a sensing image captured by at least one first camera corresponding to the operation state of the animal in the breeding area where the animal having the identifier information is bred, the breeding area A sensing unit that detects that the Sangha action occurs in; And at least one second camera installed at a location different from the first camera or the first camera for an identification image for extracting identifier information of an animal in an area in which the sang-ga act occurs when the occurrence of the sang-ga act is detected. It includes a discrimination unit that reads the identifier information of the animal that has been provided by the sangha act, the first camera is installed at a position higher than the height corresponding to the reference height of the animal in the breeding area within a preset range , It relates to a device for detecting estrus in an animal, and discloses a technology for detecting estrus in a pig by whether or not approval is granted.

Another prior art includes an image information storage unit for storing image information of at least one of a visible ray image, an infrared image, and a thermal image of an animal to be managed acquired from a network camera; A biosignal information storage unit for storing biosignal information of at least one of a heart rate, an electrocardiogram, a body temperature, and auscultation sound of the animal to be managed acquired from a biosignal measuring device; An analysis unit that compares the image information obtained from the network camera and the biosignal information obtained from the biosignal measurement device with state analysis data of multiple animals previously stored in a database, and analyzes whether or not there is an abnormality in the animal to be managed. ; And a providing unit for providing information on the analysis result to a user when the analysis result of the analysis unit appears as an abnormal symptom of the management target animal, wherein the user is in response to the information on the analysis result. A technology for remotely controlling a breeding environment of a child is disclosed.

Patent registration 10-1471906 Unexamined Patent Publication 10-2014-0019048

Existing estrus measurements of pigs were inaccurate and uncomfortable because they could only be measured by combining a separate device to the pig or observing the pig's behavior change with a camera device.

The present invention aims to develop a method for measuring estrus of a pig without binding to a pig and without using an expensive camera device or a complex image processing program.

The present invention in order to solve the above problems,

Automatic breeding device equipped with entrance door, weight measuring part, feeding part and exit door

The weight measuring unit is provided with a load cell in the middle of the square of the upper plate and the long side of the upper plate at a lower portion of the upper plate and the upper plate composed of a rectangular upper plate frame and a wire mesh,

It provides a pig estrus measurement device, characterized in that it determines whether or not the pig is in estrus based on a pattern of changes in pig weight measured by the six load cells that occur when the pig enters the automatic breeding device.

In addition, it provides a pig estrus measurement device, characterized in that the frequency analysis of the data measured by the six load cells and converting into a signal of a frequency band of 5 to 20 Hz, and determining if there is a signal of 10 Hz or more by the estrus.

In addition, the method of measuring pig estrus using the pig estrus measurement device,

Pig inflow step (S1) entering the body weight measuring unit through the entrance door the pig is opened; And

Gait measurement step (S2) of measuring and storing data measured by the six load cells that change every step of the pig when the pig enters the weight measurement unit in the pig inflow step (S2); And

A frequency analysis step (S3) of frequency-converting the data measured in the six load cells measured in the gait measurement step to frequency-analyze a gait pattern; And

Estrus determination step (S4) of determining whether or not estrus by determining whether the gait pattern analyzed in the frequency analysis step is 10 Hz or more; To

It provides a method for measuring pig estrus, comprising:

In addition, a data storage step (S5) of storing the gait data of the pig and the result of the determination of estrus (S5); provides a method for measuring pig estrus, further comprising.

In addition, it provides a method for measuring pig estrus, characterized in that it further comprises a notification function to notify the manager of the estrus in the pig estrus check step in the pig estrus confirmation step.

The present invention improves the method of measuring the weight of pigs using one or two load cells in the conventional pig weight measuring device so that the weight of pigs can be measured using six load cells, and at the same time, using this By allowing the gait of the pig to be analyzed from the measured values of the six load cells that change according to the gait, it provides a means to check whether the gait of the pig is normal and whether the pig is in estrus. There is an effect that can be done scientifically.

Figure 1 Pig breeding ground in which the pig weight measuring device of the present invention will be used
Figure 2 Front view of the pig breeding apparatus of the present invention
Figure 3 Side view of the pig breeding apparatus of the present invention
Figure 4 Pig weight measurement unit of the present invention
Figure 5 Conceptual diagram of a pig weight measuring unit of the present invention
Figure 6 Flow chart of the step of measuring estrus of the present invention
Figure 7 A cross-sectional view of the drinking water supply unit of the present invention
Figure 8 A cross-sectional view of the feed feeding part of the present invention

The operation and effect of the present invention will be described with reference to the drawings.

Figure 1 is a schematic diagram of the interior of a pig house to be installed the entrance control system for measuring biometric information for the improved finishing pigs of the present invention. It can be seen that the environment inside the pig house is measured using various breeding devices, measuring devices, and sensors for automated processing.

The measurement of biometric information for finishing pigs can measure the weight, body temperature, surface area, volume, density and height of the finishing pigs, and may include recording functions of breathing, coughing, and crying sounds of finishing pigs using a microphone (microphone), etc. have. The recorded sound can be used as information diagnosed by a user, breeder, or veterinarian.

The automatic pig breeding device installed on one side of the pig house, when the finishing pig enters the automatic breeding device, closes the door and identifies the finishing pig through RFID provided in the ear of the finishing pig, and according to the type of sensor provided, the weight, body temperature, and surface area , Volume, density, and height, etc., the biometric information of the finishing pig is measured.

When the measurement is made, the finishing pigs are moved to the next step, and in the next step, the amount of suitable feed and feed is calculated and fed according to the weight of the finishing pigs and the weighing result.

The finishing pigs that have finished feeding the feed are designed in a structure in which the pigs leave through the exit and return to the pig house. When pigs try to enter the automatic pig breeding apparatus again shortly after feeding the feed, the door of the automatic kennel does not open. If a pig that has just been fed the feed comes in while other pigs do not open the door door, do not block the door and open the exit door to let the pig go out.

In addition, the present invention has a built-in feed feeder that supplies feed in a quantitative amount and processes the remaining feed in the automatic breeding device. For this purpose, in the feed quantitative feeding device for moving the feed in the feed container to the feed feeding unit, the feed support plate in which a receiving space for storing feed is formed in a recessed state while partitioning an inner space of the feed container and an upper end thereof;

An upper cover covered on an upper end of the feed support plate and formed on a circumferential surface having at least one inlet for introducing the feed stored in the feed container into the feed support plate;

A discharge hole provided through the bottom surface of the feed support plate and for discharging the feed introduced into the receiving space through the inlet to the feed support; A blade installed in the receiving space of the feed supporting plate, rotating by receiving power from a driving motor, and forcibly transferring the feed flowing into the receiving space to the discharge hole; A scraper installed on the upper end of the upper cover and configured to be connected to the blade, rotating by the operation of the blade and dragging the feed accumulated on the upper cover toward the inlet; An automatic feed quantitative feed device, characterized in that an operation bar for moving the feed support plate up and down, may be further provided at one lower end of the feed support plate.

In addition, the present invention is a drinking water supply device that allows livestock to intake drinking water inside the automatic breeding device or inside the pig house, the first storage unit connected by a supply passage to supply the drinking water to the canteen used by the livestock; ; A second storage unit coupled to an inner side of the first storage unit and forming an outlet at a lower end thereof; In order to primarily supply water to the second storage unit, an injection pipe through which negative water is supplied is coupled to one side, and the other side having a discharge hole is inserted into the second storage unit, and inserted into the second storage unit. An injection part which connects a protrusion to a part inserted into the second storage part among both sides of one side, and connects a coupling means to a threaded part having a thread on the outer circumference of the opposite side to maintain an airtight state at the connection part with the storage part. ; One end protruding from the inside of the second storage unit to the end of the control piece is connected by a pivot pin to rotate left and right, and a float coupled to the other end of the support and positioned inside the first storage unit

It may further include an automatic drinking water supply device for livestock, characterized in that it is configured to include;

As shown in Figure 4, it is intended to improve the pig weight measuring unit provided in the weight measuring stage of the breeding apparatus.

Conventional pig weight measuring apparatus used a method of measuring the weight by separating the passage through which the pig passes from the floor using one or two load cells, and hanging the passage separated from the floor in a load cell provided at the top. By doing this, it was possible to measure the weight of pigs using a small number of load cells.

However, this method has often caused the pigs to become anxious because the passages may shake while the pigs pass through the passages.

In the present invention, in order to accurately measure the weight of the pig, four or more load cells are installed at the corners of the passage so that the weight of the pig can be measured.

However, with these means, only the weight of the pig could be measured, but the movement of the pig could not be accurately known.

Therefore, in the present invention, three load cells are installed on the left and right of the long side of the passage of the pig, so that the weight value measured by the load cell according to the movement of the passage of the pig can be used.

In this way, data measured in the six load cells are collected according to the movement of the pig in the passage, and analyzed to determine whether the pig's gait is unstable.

In addition, if a large amount of weight is placed on the load cell installed at the innermost side of the passage among the six load cells, it is recognized that the pig has completely entered the passage, and can be used as a sensor that can block the entry of other pigs by closing the entrance of the breeding device. Do.

In particular, while the pig enters the passage, the weight of the left and right load cells measured by the six load cells and the weight of the stagnant pig are measured and compared to determine whether the pig is standing or the same weight is carried on the left and right while walking. It can be done, and it can be used to determine whether the pig's gait is abnormal.

In addition, it is possible to determine whether a pig's gait is stable or unstable by comparing it with past gait data of the same pig.

In particular, it is possible to know whether the pig's gait is unstable by performing a frequency analysis along with size analysis of the measured data of six load cells.

That is, it can be determined that the pig exhibits anxiety symptoms when there is a low-frequency vibration from the data of the load cell measuring the weight of the pig. For the low frequency, data around 5 to 20 Hz can be checked. If such an uneasy step is confirmed, it is judged as the pig's heat. To this end, the data measured by the six load cells are analyzed by frequency, converted into a signal in a frequency band of 5 to 20 Hz, and if there is a signal of 10 Hz or more, it is determined by the estrus.

A general method of measuring estrus in pigs is as follows.

As a method of observing the estrus of a sow, whether the vulva is swollen and congested, whether mucus is leaking from the vulva, or whether the boar's sanctuary is allowed.

However, it is not easy to make this observation when rearing sows and boars separately. Therefore, by checking whether the pig is anxious from the gait of the pig entering the breeding device, and then confirming the estrus of the pig using the Sangha tester, and notifying the farm manager of this, actively confirming the estrus of the pig and appropriate subsequent grassland Of course you can take.

The present invention in order to solve the above problems,

Automatic breeding device equipped with entrance door, weight measuring part, feeding part and exit door

The weight measurement unit is provided with a load cell in the middle of the square of the upper plate and the long side of the upper plate at a lower portion of the upper plate and the upper plate composed of a rectangular upper plate frame and the upper plate wire,

It provides a pig estrus measurement device, characterized in that it determines whether or not the pig is in estrus based on a pattern of changes in pig weight measured by the six load cells that occur when the pig enters the automatic breeding device.

In addition, it provides a pig estrus measurement device, characterized in that the frequency analysis of the data measured by the six load cells and converting into a signal of a frequency band of 5 to 20 Hz, and determining if there is a signal of 10 Hz or more by the estrus.

In addition, the method of measuring pig estrus using the pig estrus measurement device,

Pig inflow step (S1) entering the body weight measuring unit through the entrance door the pig is opened; And

Gait measurement step (S2) of measuring and storing data measured by the six load cells that change every step of the pig when the pig enters the weight measurement unit in the pig inflow step (S2); And

A frequency analysis step (S3) of frequency-converting the data measured in the six load cells measured in the gait measurement step to frequency-analyze a gait pattern; And

Estrus determination step (S4) of determining whether or not estrus by determining whether the gait pattern analyzed in the frequency analysis step is 10 Hz or more; To

It provides a method for measuring pig estrus, comprising:

In addition, a data storage step (S5) of storing the gait data of the pig and the result of the determination of estrus (S5); provides a method for measuring pig estrus, further comprising.

In addition, it provides a method for measuring pig estrus, characterized in that it further comprises a notification function to notify the manager of the estrus in the pig estrus check step in the pig estrus confirmation step.

10: first storage unit
20: second storage unit
21: outlet
30: injection part
31: discharge hole
33: protrusion
40: threaded portion
41: Nanasan
42: coupling means
50: control unit
51: support
52: float
53: control piece
54: pivot pin
55: flexible member
60: supply passage
61: injection tube
70: water bottle
71: separation nozzle
210: feed storage container
212: space
214: upper cap
220: lower cap
224: feed stand
230: feed means
232: feed support plate
234: accommodation space
236: discharge hole
238: upper cover
240: inlet
244: blade
246: drive motor
252: rotating shaft
256: scraper
260: elastic ring member
270: control unit
272: sensor
274: timer
500: breeding device
510: Entrance door
520: weight measurement unit
530: feeding part
540: Exit door
600: weight meter
610: top frame
620: top plate wire mesh
630: load cell

Claims (2)

Automatic breeding equipment equipped with entrance door, weight measuring part, feeding part and exit door
The weight measurement unit is provided with a load cell in the middle of the square of the upper plate and the long side of the upper plate at a lower portion of the upper plate and the upper plate composed of a rectangular upper plate frame and the upper plate wire,
Pig estrus measurement device, characterized in that to determine whether the pig is in estrus based on a pattern of changes in pig weight measured by the six load cells that occur when the pig enters the automatic breeding device. In the method for measuring swine estrus using the apparatus for measuring swine estrus of claim 1,
Pig inflow step (S1) entering the body weight measuring unit through the entrance door the pig is opened; And
Gait measurement step (S2) of measuring and storing data measured by the six load cells that change every step of the pig when the pig enters the weight measurement unit in the pig inflow step (S2); And
A frequency analysis step (S3) of frequency-converting the data measured in the six load cells measured in the gait measurement step to frequency-analyze a gait pattern; And
And determining whether or not the gait pattern analyzed in the frequency analysis step is 10 Hz or more, and determining whether or not estrus is estrus (S4).

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