KR20140125934A - System and method for management for livestock delivery room - Google Patents

Abstract

The present invention relates to a system to manage a delivery room for livestock and a management method thereof. The system includes: a livestock delivery room which includes a plurality of delivery spaces, an image recording unit to record images of the delivery spaces, a ventilation unit to circulate air inside the delivery spaces, and a sensor unit to measure the temperature and humidity of the delivery spaces; a control device which receives detection results by the image recording unit, ventilation unit, and sensor unit of the delivery room and controls the operation of each unit; a management server which accesses the control device through a wired or wireless network and manages the device; and a user smart terminal which accesses the control device or management server through a wireless network and controls and manages the operation.

Description

FIELD OF THE INVENTION [0001] The present invention relates to a system and a management method for a livestock delivery room,

The present invention relates to a livestock breeding room management system and a management method thereof, and more particularly, to a livestock breeding room management system and a management method capable of managing a livestock delivery room by object using a two-way communication method smartphone.

In general, the management of pig breeding environment is the key to the temperature, humidity, and ventilation of pigs. This means that when a large number of pigs are raised in a narrow space, the humidity becomes a problem when they are concentrated in the temperature, and the ventilation becomes insufficient when the emphasis is on the warming. Therefore, if the temperature and the humidity can not be maintained at a proper level, the problem of increasing respiratory diseases arises.

Therefore, to breed healthy pigs, temperature, humidity, and ventilation should match three times. In addition, the porcine delivery room is where the newborn piglets are raised. If the temperature, humidity and ventilation are not maintained constantly, many piglets will suffer from respiratory diseases.

Of course, in recent years, various researches and developments have been actively conducted on technologies for managing livestock in cattle feeds and supplying feeds using various sensors. However, the existing technology discloses only a technology for determining the biological changes of livestock using livestock biological sensors and a technique for controlling temperature and humidity through a simple control box. It has a disadvantage in that it can not grasp the occurrence place of the problem and the action situation in real time.

(Patent Document 1) Korean Patent Publication No. 2006-0112533 (Patent Document 2) Korean Patent Publication No. 2002-0036350 (Patent Document 3) Korean Published Patent Application No. 2008-0000266 (Patent Document 4) Korean Patent Publication No. 2002-0020290

The present invention has been conceived to solve the above-mentioned problems, and it is an object of the present invention to provide a method and apparatus for detecting the state of a separate angular delivery labor chamber in real time, remotely controlling the operation of each delivery room ventilation fan, And provides a management and management method of a livestock breeding room which can manage the livestock breeding room by a bidirectional communication method by providing the management method in the form of an application to a smart device.

A plurality of labor zones according to the present invention, an image capturing unit for capturing an image of the labor space, a ventilation unit for circulating air in the labor space, a domestic animal having a sensor unit for measuring the temperature and humidity of the labor- A controller for receiving the detection result of the image capturing unit, the ventilation unit and the sensor unit of the livestock delivery room and controlling the operation of each unit, a management server for accessing and managing the control unit through a wired / wireless network, And a user smart terminal connected to the control device or the management server via the network to control and manage the operation of the livestock delivery control system.

The image capturing unit includes a plurality of camera units capable of capturing a labor space, an image providing unit for providing captured image signals through wire / wireless communication, and a camera controller for controlling operations of the camera according to an image control signal .

The control device includes an operation control unit for generating a control signal for controlling the operation of the image capturing unit, the ventilation unit, and the sensor unit of the livestock delivery room according to a user's instruction, and an operation control unit for storing and processing A sensing control unit for providing a sensing result of the sensor unit to a user and a smart terminal or a management server of the user through wired / wireless communication, A control communication unit for communicating with the control unit, and an integrated control unit for controlling the operation of each of the units.

The management server includes a storage unit for storing information provided from the control device, a ventilation operation determination unit for determining whether the ventilation unit is operated using the sensing result of the sensor unit, And a ventilation operation determination unit.

The user smart terminal includes a communication unit for communicating with the control device and the management server, a display unit for processing and displaying signals provided from the control device, and an application for controlling the operations of the image capturing unit, the ventilation unit, And the like.

In this way, the present invention can detect the state of the separately separated angular delivery laboratories in real time and remotely control the operation of each delivery room ventilation fan. In addition, it is possible to check the operation of the ventilating fan to check whether the ventilating fan is defective or not, and it is possible to repair the ventilating fan quickly by grasping the position of the ventilating fan. In addition, it is possible to manage the livestock delivery room by a bidirectional communication method by providing the management method to the smart device in the form of an application.

1 is a block diagram of a livestock breeding room management system according to an embodiment of the present invention;
2 illustrates an application login screen of a user smart terminal according to an embodiment.
3 is an application initial management screen of the smart terminal.
FIG. 4 is a conceptual view of a screen when monitoring an application of a smart terminal application. FIG.
5 is a conceptual diagram of a ventilation fan status related screen during facility control of an application of a smart terminal.
6 is a screen conceptual view showing the image of one minute space, ventilation part, and temperature and humidity.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. It will be apparent to those skilled in the art that the present invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, It is provided to let you know. Wherein like reference numerals refer to like elements throughout.

It is to be clarified that the division of components in this specification is merely a division by main function which each component is responsible for. That is, two or more constituent parts to be described below may be combined into one constituent part, or one constituent part may be divided into two or more functions according to functions that are more subdivided. In addition, each of the constituent units described below may additionally perform some or all of the functions of other constituent units in addition to the main functions of the constituent units themselves, and that some of the main functions, And may be carried out in a dedicated manner. Accordingly, the presence or absence of each component described in this specification should be interpreted as a function. For this reason, it is clear that the configuration of the livestock breeding room management system and the management methods of the present invention can be varied within the scope of achieving the object of the present invention.

1 is a block diagram of a livestock breeding room management system according to an embodiment of the present invention.

FIG. 2 is an application login screen of the user smart terminal according to an embodiment, and FIG. 3 is an application initial management screen of the smart terminal. 5 is a conceptual diagram of a ventilation fan status related facility control during facility control of an application of a smart terminal, and FIG. 6 is a schematic view illustrating a ventilation fan status, Fig.

1 to 6, the livestock breeding room management system according to the present embodiment includes a plurality of delivery spaces, an image capturing unit for capturing images of the delivery space, a ventilation unit for circulating air in the delivery space, A control unit for receiving the detection results of the image capturing unit, the ventilator and the sensor unit of the livestock delivery room and controlling the operation of each unit; A management server 300 for accessing and managing the control device through a wired / wireless network, a user smart terminal 400 for controlling the operation thereof by accessing the control device or the management server through a wireless network, ).

As described above, the livestock delivery room 100 includes a plurality of delivery spaces, an image capturing unit, a ventilation unit, and a sensor unit. It is also effective that the livestock delivery room is provided with a separate locking device for access control. It is also possible that only authorized users are allowed to access through the RFID technology, and it is effective that this access record is stored.

It is effective that the labor space is separated from each other through a partition or a separation membrane in the space where the mother and the baby are located. The delivery space may be formed by dividing the space of the livestock delivery room through the iron rod. Of course, the present invention is not limited to this, and it is possible to produce a labor-intensive labor space having various structures according to the characteristics of a livestock.

The image capturing unit includes a plurality of camera units capable of capturing a delivery space, an image providing unit for providing captured image signals through wire / wireless communication, and a camera control unit for controlling the operation of the camera according to the image control signals.

In this embodiment, it is effective that one camera unit is provided in each labor space. Here, the camera unit includes a camera that captures an image and a light source that is located around the camera. A CCTV or a CCD camera may be used as the camera. It is effective that an LED element is used as a light source. Of course, cameras or light sources capable of infrared imaging can be used.

Of course, the present invention is not limited to this, and the camera unit may be arranged for each of a plurality of delivery spaces (for example, two to five delivery spaces). In this case, it is possible to further include a separate moving means for moving the camera in the up, down, left, and right directions.

The image providing unit provides images taken by each camera unit. The image providing unit can transmit the photographed image to the outside in real time without any additional processing. However, the present invention is not limited to this, and the photographed image may be stored and provided as an image. The image providing unit may have an image filtering function. That is, according to the external control signal, a certain color can be more clearly displayed through image filtering of the image providing unit. For example, in the case of a pig delivery room it is possible to show the pink color more clearly in the image. This allows the user to observe pigs in the delivery room more closely through images.

In addition, the image providing unit may be mounted on a single camera unit to save and edit an image of the image taken by the camera unit. However, the present invention is not limited to this, and it is also possible to transmit image images received from two to ten camera units. Of course, the number of camera units may be 10 or more, but it is effective that the number of camera units is 10 or less when reflecting the size of image information to be stored and the image processing speed.

The camera control unit controls operations of the camera unit and the image providing unit according to the image control signal of the control device. That is, it is possible to turn on / off the camera unit, perform shooting or stop the camera unit. Also, it is possible to transmit the image through the image providing unit or to operate the filter in the image providing unit.

The ventilation part circulates the air in the delivery space to regulate the temperature and humidity in the delivery space.

It is effective that the ventilation part is provided for each labor space. This allows the temperature and humidity of each labor space to be adjusted according to the characteristics of each labor space. Of course, the ventilation part may be provided in the area between the two delivering spaces. This can reduce the installation cost of the ventilation part.

The ventilation part includes a ventilation fan capable of rotating clockwise and counterclockwise, a rotation control part for controlling the rotation of the ventilation fan, an operation judging part for judging the failure of the ventilation fan, and a liquid spray part for spraying the liquid do. It is preferable to further include a ventilation control unit for controlling the operation of each device in the ventilation unit according to the ventilation control signal of the control device, and a ventilation signal transmission unit for sending out the detection / determination result of the operation determination unit.

The ventilation fan includes a rotating fan and a rotating shaft connected to the fan. Therefore, the fan can rotate clockwise and counterclockwise according to the rotation direction of the rotation shaft. Since the ventilation fan can rotate clockwise and counterclockwise, the air in the delivery space can be discharged to the outside, and the outside air can be introduced into the delivery space.

The rotation control unit includes a motor that provides a rotational force to the rotation shaft. At this time, it is effective that the motor rotates clockwise or counterclockwise according to an external control signal. However, the present invention is not limited to this, and a rotational force converting unit may be disposed between the motor and the rotating shaft. Whereby the rotation direction of the rotary shaft can be changed clockwise or counterclockwise.

The operation determining unit includes a vibration sensing unit attached to the ventilation fan to sense vibration, and a power sensing unit sensing the amount of power of the ventilation fan.

When the ventilation fan rotates, the vibration detection unit generates a certain range of vibration according to the operation of the fan. However, when a failure occurs in the ventilation fan, no vibration occurs, or vibration exceeding a certain range is generated. Therefore, in the present embodiment, first, the operation of the ventilation fan can be determined through the vibration sensing unit. The power sensing unit determines the amount of power required according to the operation of the ventilation fan, and determines whether the ventilation fan is abnormal when the amount of power is not generated or is excessive. Accordingly, the operation determining unit can determine the operation state of the ventilation fan through the vibration sensing unit and the power sensing unit.

Further, in this embodiment, the liquid spray portion is provided in the ventilation portion. The liquid spraying portion is disposed at the front end of the ventilation fan so that when the ventilation fan rotates, the humidity can be controlled in the labor chamber by spraying the liquid. That is, since the liquid particles are sprayed when the ventilation fan rotates, the sprayed liquid particles can be evenly distributed in the labor space, so that the humidity can be controlled quickly.

It is effective that the sensor unit is provided with a temperature sensor for measuring the temperature of the delivery space and a humidity sensor for measuring the humidity. In addition, it is effective to further include a sensor transmitting unit for transmitting a sensing value of the sensors. And a control unit for controlling the operation of the sensors according to need. It is more effective that the sensor is continuously operated.

Then, the control device 200 controls the operations of the image capturing unit, the ventilator and the sensor unit, and can grasp the state of the livestock breeding room 100 using signals provided from the control unit 200, And transmits a control signal for controlling the operations of the respective units according to a command of the user.

The control device 200 includes an operation control unit for generating a control signal for controlling operations of the image capturing unit, the ventilation unit and the sensor unit of the livestock delivery room according to a user's instruction, A ventilation control unit for determining whether the ventilation unit operates or not and providing a result of the ventilation; a sensing control unit for providing a sensing result of the sensor unit to a user; A control communication unit for communicating with the management server, and an integrated control unit for controlling operations of the respective units.

The operation control unit generates an image control signal for controlling the operation of the image capturing unit and generates a ventilation control signal for controlling the operation of the ventilation unit. Further, a sensor control signal for controlling the operation of the sensor unit may be generated. At this time, each signal includes a unique number of the image capturing unit, the ventilation unit, and the sensor unit to which the signal is transmitted. Accordingly, the image capturing unit, the ventilation unit, and the sensor unit corresponding to the unique number can be operated among the plurality of image capturing units, the ventilation unit, and the sensor unit. The integrated control unit manages the unique numbers of the image capturing unit, the ventilation unit, and the sensor unit.

The image control unit receives and stores the image captured by the image capturing unit. At this time, the images are provided together with the unique numbers of the respective image capturing units, and they are classified and stored according to their unique numbers.

Then, in response to the request of the user, an image corresponding to the unique number is provided. The image control unit can provide a plurality of images to the user smart terminal. It is effective to provide preferably two to four images in order to minimize the load of the entire system.

The image control unit may sequentially display the images photographed by the respective image capturing units to the user.

The ventilation control unit determines whether the ventilation unit is in the normal operation state or not by using the vibration value and the electric energy as a result of the determination by the operation determination unit of the ventilation unit. Of course, even in this case, a unique number is assigned to each ventilation part.

At this time, since the normal range value of the vibration value and the power amount can be changed according to the position area of the ventilation fan, the user can input and store the normal range of the vibration value and the normal range of the power amount.

The ventilation control unit judges the normal operation of the ventilation fan according to the vibration value and the power amount, and provides the determination result to the user smart terminal. This allows the user to quickly repair a failed ventilation fan. Furthermore, it is possible to confirm which area the ventilation fan has failed based on the unique number of each ventilation fan. If the ventilation fan fails, it is possible to notify the user through a separate alarm.

The ventilation control unit can provide the user with the operation of the entire ventilation unit and can notify the user of the operation and failure of the individual ventilation unit as well as the ventilation unit operation for each certain block.

The sensing control unit may receive the sensing result, store the sensed result, and display the result in real time according to the request of the user. Also, the sensing control unit calculates temperature and humidity in the whole livestock delivery room using the sensing results of the sensing units, and provides the temperature and humidity to the user terminal. At this time, when the temperature and humidity in the whole livestock delivery room are out of the set range, it is possible to notify the user through a separate alarm or visual effect. At this time, it is effective that the temperature setting range is 26 to 37 degrees and the humidity setting range is 60 to 70%.

The control communication unit communicates with the user's smart terminal or the management server through wired / wireless communication, and provides the generated signals to the livestock delivery room.

At this time, it is effective for the control communication unit to communicate through the short distance wireless communication technology as well as the Internet communication. In this case, a separate wired / wireless router may be further provided.

The communication method of the control communication unit is not limited, and various communication methods can be used.

The integrated control unit controls the operation of each of the above-mentioned units and manages a plurality of image capturing units, ventilation units, and sensor units disposed in the livestock delivery room according to their unique numbers.

The management server 300 includes a storage unit for storing information provided from the control device 200 and a ventilation operation determination unit for determining whether the ventilation unit is operated using the sensing result of the sensor unit. If the temperature and humidity of the labor space are out of the setting range, the ventilation part is automatically operated through the control device. This allows the temperature and humidity of the labor area to be kept constant by automated techniques.

In addition, the management server 300 includes a ventilation operation determination unit that determines whether the ventilation unit is normally operated using the stored information. It is effective to notify the user smart terminal 400 of the abnormal operation of the ventilation part.

Also, the management server may have a function of creating and distributing an application (app) to be used in the separate user smart terminal 400.

The user smart terminal 400 is provided with a communication unit for communicating with the control device and the management server, and a control unit for processing and displaying the signals provided from the control device and controlling the operations of the image capturing unit, the ventilation unit and the sensor unit of the livestock delivery room And an application section that can be used.

The application unit includes an authentication unit for authenticating a user, a facility monitoring unit for displaying a delivery space of the livestock delivery room, an image capturing unit and a ventilation unit disposed in each space, and a sensor unit on the screen, an operation and control unit for the ventilation unit of the livestock delivery room A camera monitoring unit for confirming the image photographed by the image photographing unit, and an entrance and exit monitoring unit for confirming the entrance and exit record of the livestock delivery room.

Here, each part may display its own image, data, and the like to the user, and may be provided with the input of the user.

The authentication unit provides a separate login screen to input the user's ID and password. This allows the user to manage his livestock breeding room from the outside.

The monitoring part displays the position of the camera in the delivery room and the position of the ventilation fan on the floor plan of the delivery room. At this time, the monitoring unit may also display an operation state of the camera unit and the ventilation fan.

If the user selects a specific camera unit, the camera monitoring unit is automatically executed to display the image corresponding to the camera unit. Further, when the user selects a specific ventilation fan, the facility control section is operated to display a screen related to the operation of the selected ventilation fan.

The facility control unit displays the operation status of each of the entire ventilation units or indicates whether the facilities in the livestock delivery room are operated or not. Then, whether or not the selected ventilation unit is turned on / off is determined, and the operation / stop status is displayed. Then, the vibration value and the power amount of the ventilation part are displayed, and the presence or absence of the operation and the failure are displayed.

The camera surveillance section displays the images of the camera section of the selected labor space. Of course, the presence or absence of the operation of the camera unit and the presence or absence of the filtering of the camera unit can be shown.

The entrance and departure supervision department can identify the user who entered and exited the livestock delivery room. In addition, the entrance and exit of the livestock breeding room can be opened and closed by a separate request.

In the above description, the screen of each part is displayed one by one on the user smart terminal. However, the present invention is not limited to this, and a plurality of screens may be displayed on one screen of the user smart terminal according to functions performed in the respective sections. For example, the operation of the ventilation part and the temperature / humidity result can be displayed or the image of the labor space can be displayed, and the temperature and humidity of the labor area and the operation and failure of the ventilation fan can be shown.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention.

100: livestock breeding room
200: Control device
300: management server
400: user smart terminal

Claims (5)

A livestock delivery room having a plurality of delivery spaces, an image capturing unit for capturing images of the delivery space, a ventilation unit for circulating air in the delivery space, and a sensor unit for measuring temperature and humidity of the delivery space.
A control device that receives the detection result of the image capturing part, the ventilating part, and the sensor part of the livestock delivery room and controls the operation of each part;
A management server for accessing and managing the control device through a wired / wireless network;
And a user smart terminal connected to the control device or the management server through a wireless network to control and manage the operation thereof. The method according to claim 1,
The image capturing unit includes a plurality of camera units capable of capturing a labor space, an image providing unit for providing captured image signals through wire / wireless communication, and a camera controller for controlling operations of the camera according to an image control signal Wherein the livestock breeding room management system comprises: The method according to claim 1,
The control device includes an operation control unit for generating a control signal for controlling the operation of the image capturing unit, the ventilation unit, and the sensor unit of the livestock delivery room according to a user's instruction, and an operation control unit for storing and processing A sensing control unit for providing a sensing result of the sensor unit to a user and a smart terminal or a management server of the user through wired / wireless communication, And an integrated control unit for controlling the operation of each of the units. The method according to claim 1,
The management server includes a storage unit for storing information provided from the control device, a ventilation operation determination unit for determining whether the ventilation unit is operated using the sensing result of the sensor unit, And a ventilation operation judging section. The method according to claim 1,
The user smart terminal includes a communication unit for communicating with the control device and the management server, a display unit for processing and displaying signals provided from the control device, and an application for controlling the operations of the image capturing unit, the ventilation unit, And a control unit for controlling the control unit.

Images