CN210987666U - Livestock breeding system - Google Patents

Abstract

The embodiment of the utility model discloses a livestock breeding system, which comprises a temperature and humidity sensor, an image collector, a feeding device, a cleaning device, network equipment, background equipment and monitoring equipment; the network equipment is respectively connected with the temperature and humidity sensor, the image collector and the background equipment and is used for transmitting the received temperature and humidity parameters and the images of the breeding room to the background equipment; the background equipment is respectively connected with the feeding device and the cleaning device through network equipment and is used for controlling the feeding device and the cleaning device to start according to the timing time; the background equipment is connected with the monitoring equipment and used for receiving the temperature and humidity parameters and the images of the breeding room, and when the abnormality is detected, the abnormality information is sent to the monitoring equipment so that the monitoring equipment can display the abnormality information conveniently. Feed through backstage equipment control and eat device and cleaning device, can realize automatic feeding and automatic cleaning, very big manpower of having saved promotes livestock breeding's automation level.

Description

Livestock breeding system

Technical Field

The utility model relates to an intelligence breeding technology field especially relates to a livestock breeding system.

Background

In the livestock plant, the manual work is needed to participate in counting the quantity of livestock and measuring the environment of the plant, the efficiency is low, and the intellectualization and the automation cannot be achieved. Therefore, an automatic and intelligent management system is urgently needed, so that the labor cost can be greatly reduced, and the automatic breeding level is improved.

With the development of technologies such as intelligent equipment, cloud computing, artificial intelligence and the like, intelligent management is gradually introduced in livestock breeding. In the prior art, information such as some environmental parameters in a farm is collected through equipment such as a sensor, so that occupation of manpower resources is reduced. However, livestock breeding needs a lot of work, and the work needs to be completed manually based on the intelligent management of the target.

Therefore, how to improve the automation level of livestock breeding is an urgent problem to be solved by technical personnel in the field.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides a livestock breeding system can promote livestock breeding's automation level.

In order to solve the technical problem, an embodiment of the utility model provides a livestock breeding system, which comprises a temperature and humidity sensor, an image collector, a feeding device, a cleaning device, network equipment, background equipment and monitoring equipment;

the network equipment is respectively connected with the temperature and humidity sensor, the image collector and the background equipment, and is used for receiving temperature and humidity parameters transmitted by the temperature and humidity sensor, receiving breeding room images transmitted by the image collector, and transmitting the temperature and humidity parameters and the breeding room images to the background equipment;

the background equipment is respectively connected with the feeding device and the cleaning device through the network equipment and is used for controlling the feeding device and the cleaning device to start according to the timing time;

the background equipment is connected with the monitoring equipment and used for receiving the temperature and humidity parameters and the images of the culture room, and when abnormality is detected, the background equipment sends abnormal information to the monitoring equipment so that the monitoring equipment can display the abnormal information.

Optionally, at least three temperature and humidity sensors are arranged in the same breeding room; the first temperature and humidity sensor is arranged on the side wall of the breeding room, the second temperature and humidity sensor is arranged on the indoor top of the breeding room, and the third temperature and humidity sensor is arranged on the ground of the breeding room.

Optionally, the feeding device comprises a feed storage device, a feeding groove, a movable baffle arranged between the feed storage device and the feeding groove, and a motor driving the movable baffle to move; the feed storage device is obliquely arranged; when the feeding device is in a working state, the motor operates to drive the baffle to move to a preset position, so that the feed storage device is communicated with the feeding groove.

Optionally, the feeder also comprises a dust cover arranged on the upper side of the feeding groove.

Optionally, the sweeping device comprises a wind-power sweeping device and a hydraulic sweeping device.

Optionally, the monitoring device further comprises an alarm connected with the monitoring device; and when the monitoring equipment receives the abnormal information, controlling the alarm to give an alarm for prompt.

Optionally, the network device is a router.

Optionally, the cultivation system further comprises a cold and hot switching device arranged on the sidewall of the cultivation chamber; the background equipment is connected with the cold-hot switching device through the network equipment and is used for controlling the cold-hot switching device to start to work when the temperature values in the received temperature and humidity parameters are abnormal.

Optionally, the device further comprises an ammonia gas detector arranged in the culture room;

the ammonia gas detector is connected with the background equipment through the network equipment and is used for transmitting the collected ammonia gas concentration value of the culture room to the background equipment.

Optionally, the air-conditioning system further comprises an air exhaust device arranged on the sidewall of the culture chamber;

the background equipment is connected with the exhaust device through the network equipment and is used for controlling the exhaust device to start when detecting that the ammonia concentration value of the culture room is higher than a threshold value.

Optionally, a plurality of movable floors are laid on the upper side of the ground surface of the culture room; each floor is arranged on the upper side of the ground surface through a telescopic bracket; when the telescopic bracket is in a contraction state, the plurality of floors are seamlessly spliced and form a cavity with the ground surface;

the background equipment is connected with the controller of the telescopic support through the network equipment and is used for controlling the telescopic support to stretch.

According to the technical scheme, the livestock breeding system comprises a temperature and humidity sensor, an image collector, a feeding device, a cleaning device, network equipment, background equipment and monitoring equipment; the network equipment is respectively connected with the temperature and humidity sensor, the image collector and the background equipment and is used for receiving temperature and humidity parameters transmitted by the temperature and humidity sensor, receiving breeding room images transmitted by the image collector and transmitting the temperature and humidity parameters and the breeding room images to the background equipment; the background equipment is respectively connected with the feeding device and the cleaning device through network equipment and is used for controlling the feeding device and the cleaning device to start according to the timing time; the background equipment is connected with the monitoring equipment and used for receiving the temperature and humidity parameters and the images of the breeding room, and when the abnormality is detected, the abnormality information is sent to the monitoring equipment so that the monitoring equipment can display the abnormality information conveniently. The environment of the breeding room can be visually known through the temperature and humidity sensor and the image collector, and a user can timely find the abnormality of the breeding room through the monitoring equipment. And feed through backstage equipment control and eat device and cleaning device, can realize automatic feeding and automatic cleaning, very big manpower of having saved promotes livestock breeding's automation level.

Drawings

In order to illustrate the embodiments of the present invention more clearly, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious to those skilled in the art that other drawings can be obtained based on these drawings without inventive work.

Fig. 1 is a schematic structural view of a livestock breeding system provided by an embodiment of the utility model.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, the ordinary skilled in the art can obtain all other embodiments without creative work, which all belong to the protection scope of the present invention.

In order to make the technical field better understand the solution of the present invention, the following detailed description of the present invention is provided with reference to the accompanying drawings and the detailed description.

Next, a livestock breeding system provided by the embodiment of the utility model is described in detail. Fig. 1 is a schematic structural view of a livestock breeding system provided in an embodiment of the present invention, which includes a temperature and humidity sensor 11, an image collector 12, a feeding device 13, a cleaning device 14, a network device 15, a background device 16, and a monitoring device 17.

The network device 15 is connected to the temperature and humidity sensor 11, the image collector 12 and the background device 16, and is configured to receive the temperature and humidity parameters transmitted by the temperature and humidity sensor 11, receive the images of the breeding room transmitted by the image collector 12, and transmit the temperature and humidity parameters and the images of the breeding room to the background device 16.

The network device 15 is mainly used for forwarding environmental data (such as temperature and humidity parameters and images of the cultivation room) of the cultivation room, and in practical application, the network device 15 may adopt a router.

In order to comprehensively know the temperature and humidity distribution of the culture room, a plurality of temperature and humidity sensors 11 can be arranged in the same culture room. For example, at least three temperature and humidity sensors 11 can be arranged in the same breeding room; the first temperature and humidity sensor is arranged on the side wall of the breeding room, the second temperature and humidity sensor is arranged on the indoor top of the breeding room, and the third temperature and humidity sensor is arranged on the ground of the breeding room.

Taking a pig breeding example, the background device 16 can know the number of pigs in the breeding room and the body type of each pig by analyzing images of the breeding room, and the background device 16 can display information obtained by analysis to a manager through the monitoring device 17.

The background device 16 is connected to the feeding device 13 and the cleaning device 14 through the network device 15, and is configured to control the feeding device 13 and the cleaning device 14 to start according to the timing time.

Wherein, the feeding device 13 may include a feed storage device, a feeding groove, a movable baffle plate disposed between the feed storage device and the feeding groove, and a motor for driving the movable baffle plate to move. In practical application, the feed storage device can be obliquely arranged; when the feeding device 13 is in a working state, the motor operates to drive the baffle plate to move to a preset position, so that the feed storage device is communicated with the feeding groove.

In practical application, the preset position of the baffle can be set according to the inclination angle of the feed storage device.

The working time of the motor can be controlled by the background equipment 6, and the working time of the motor can also be preset. When the motor is in a working state, the baffle plate is driven to keep at a preset position; when the working time of the motor is over, the motor can drive the baffle to move to the initial position, so that the feed storage device is separated from the feeding groove, and the motor is in a non-working state at the moment.

There is often longer time interval between two feeds, throws the cleanness of feeding groove in order to guarantee, can set up the shield at feeding groove upside. The dustproof cover can be connected with the motor, and when the motor is in a working state, the dustproof cover is controlled to be opened; when the motor is in a non-working state, the dustproof cover covers the upper side of the feeding groove.

In consideration of the fact that the ground of the cultivation room can contain garbage such as feces of livestock and feed residues, a cleaning device can be arranged to ensure the cleanness of the cultivation room.

In an embodiment of the present invention, the cleaning device 14 may include a wind cleaning device and a hydraulic cleaning device.

The wind power cleaning device can clean garbage on the ground surface of the culture room, and the hydraulic power cleaning device can clean some stains adsorbed or adhered on the ground surface of the culture room.

The background device 16 is connected to the monitoring device 17, and is configured to receive the temperature and humidity parameters and the images of the breeding room, and when an abnormality is detected, send abnormality information to the monitoring device 17, so that the monitoring device 17 displays the abnormality information.

The monitoring device 17 refers to a terminal device used by a monitoring person, and for example, the monitoring device 17 may be a desktop computer.

Considering that the monitoring personnel does not check the information displayed by the monitoring equipment 17 in real time, when the abnormality is detected, in order to attract the attention of the monitoring personnel in time, an alarm connected with the monitoring equipment 17 can be set; and when the monitoring equipment 17 receives the abnormal information, controlling an alarm to give an alarm.

Wherein, the alarm can adopt audible and visual alarm.

The temperature is an important factor influencing the growth of livestock and is influenced by the external environment, and the temperature of the breeding room can be dynamically changed, so that the temperature of the breeding room cannot meet the growth requirement of the livestock. Therefore, in the embodiment of the present invention, a cold/hot switching device can be disposed on the sidewall of the cultivation room. The background device 16 is connected to the cold-hot switching device through the network device 15, and is configured to control the cold-hot switching device to start to operate when a temperature value in the received temperature and humidity parameter is abnormal.

Wherein, the cold and hot switching device can be an air conditioner. When the background equipment 16 detects that the temperature of the culture room is lower, the air conditioner can be controlled to heat; when the background equipment 16 detects that the temperature of the culture room is higher, the air conditioner can be controlled to refrigerate.

Consider that the excrement and urine of livestock, the residue of fodder produce the ammonia easily when the breed room experiences the longer time, when ammonia concentration is too high, can cause harmful effects to the growth of livestock, consequently, the embodiment of the utility model provides an in, can set up the ammonia detector at the breed room.

The ammonia gas detector is connected with the background equipment 16 through the network equipment 15 and is used for transmitting the collected ammonia gas concentration value of the culture room to the background equipment 16.

In practical application, a threshold value for detecting the ammonia concentration can be preset in the background equipment 16, and when the ammonia concentration value in the culture room is higher than the threshold value, the background equipment 16 can send prompt information to the monitoring equipment so as to facilitate timely processing by a manager.

In order to improve the automatic management level of the culture room, an exhaust device can be arranged on the side wall of the culture room; the background equipment 16 is connected with the air exhaust device through the network equipment 15 and is used for controlling the air exhaust device to start when detecting that the ammonia concentration value in the culture room is higher than a threshold value.

In order to facilitate the cleaning of the culture room, in the embodiment of the utility model, a plurality of movable floors can be laid on the upper side of the ground surface of the culture room; each floor is arranged on the upper side of the ground surface through a telescopic bracket; when the telescopic support is in a contraction state, the plurality of floors are seamlessly spliced and form a cavity with the ground surface. The background device 16 is connected to the controller of the telescopic bracket through the network device 15, and is used for controlling the telescopic bracket to extend and retract.

In practical application, the background device 16 can control the telescopic bracket to extend and retract according to the ammonia concentration value of the culture room. For example, when the ammonia concentration value in the farm is greater than the threshold value, the backend device 16 may control the telescopic bracket to extend. The background device 16 can also analyze the images of the breeding room, and when the area of the excrement on the floor of the breeding room is large, the background device 16 can control the telescopic bracket to extend.

In the initial state, the telescopic bracket is in a contraction state, and the telescopic bracket is equivalent to a pillar at the moment, so that the floor is firmly arranged on the upper side of the ground surface. Each floor has its corresponding telescopic bracket. When all the telescopic supports are in a contraction state, the plurality of floors can be spliced seamlessly.

When a certain telescopic bracket is extended, the floor connected with the telescopic bracket can be driven to move upwards firstly and then move in multiple directions such as left, right, front or back. Therefore, gaps are formed among the floors, the cleaning device 14 can clean the garbage on other floors into the cavity through the gaps, and subsequent managers can clean the garbage accumulated in the cavity in time. After the cleaning device 14 finishes cleaning, the back-stage device 16 can control the retractable stand to retract, so as to return the floor to the original position.

According to the technical scheme, the livestock breeding system comprises a temperature and humidity sensor, an image collector, a feeding device, a cleaning device, network equipment, background equipment and monitoring equipment; the network equipment is respectively connected with the temperature and humidity sensor, the image collector and the background equipment and is used for receiving temperature and humidity parameters transmitted by the temperature and humidity sensor, receiving breeding room images transmitted by the image collector and transmitting the temperature and humidity parameters and the breeding room images to the background equipment; the background equipment is respectively connected with the feeding device and the cleaning device through network equipment and is used for controlling the feeding device and the cleaning device to start according to the timing time; the background equipment is connected with the monitoring equipment and used for receiving the temperature and humidity parameters and the images of the breeding room, and when the abnormality is detected, the abnormality information is sent to the monitoring equipment so that the monitoring equipment can display the abnormality information conveniently. The environment of the breeding room can be visually known through the temperature and humidity sensor and the image collector, and a user can timely find the abnormality of the breeding room through the monitoring equipment. And feed through backstage equipment control and eat device and cleaning device, can realize automatic feeding and automatic cleaning, very big manpower of having saved promotes livestock breeding's automation level.

The livestock breeding system provided by the utility model is introduced in detail. The embodiments are described in a progressive manner in the specification, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, the present invention can be further modified and modified, and such modifications and modifications also fall within the protection scope of the appended claims.

Claims (10)

1. A livestock breeding system is characterized by comprising a temperature and humidity sensor, an image collector, a feeding device, a cleaning device, network equipment, background equipment and monitoring equipment;

the network equipment is respectively connected with the temperature and humidity sensor, the image collector and the background equipment, and is used for receiving temperature and humidity parameters transmitted by the temperature and humidity sensor, receiving breeding room images transmitted by the image collector, and transmitting the temperature and humidity parameters and the breeding room images to the background equipment;

the background equipment is respectively connected with the feeding device and the cleaning device through the network equipment and is used for controlling the feeding device and the cleaning device to start according to the timing time;

the background equipment is connected with the monitoring equipment and used for receiving the temperature and humidity parameters and the images of the culture room, and when abnormality is detected, the background equipment sends abnormal information to the monitoring equipment so that the monitoring equipment can display the abnormal information.

2. The livestock breeding system of claim 1, wherein at least three of said temperature and humidity sensors are provided in the same farm; the first temperature and humidity sensor is arranged on the side wall of the breeding room, the second temperature and humidity sensor is arranged on the indoor top of the breeding room, and the third temperature and humidity sensor is arranged on the ground of the breeding room.

3. The livestock breeding system of claim 1, wherein said feeding device comprises a feed reservoir, a feed chute, a movable barrier disposed between said feed reservoir and said feed chute, and a motor for moving said movable barrier; the feed storage device is obliquely arranged; when the feeding device is in a working state, the motor operates to drive the baffle to move to a preset position, so that the feed storage device is communicated with the feeding groove.

4. The livestock breeding system of claim 3, further comprising a dust cover disposed on an upper side of said feeder trough.

5. The livestock breeding system of claim 4, wherein said sweeping means comprises wind-powered sweeping means and hydraulic sweeping means.

6. The livestock breeding system of claim 5, further comprising an alarm connected to said monitoring device; and when the monitoring equipment receives the abnormal information, controlling the alarm to give an alarm for prompt.

7. The livestock breeding system of claim 6, further comprising a hot and cold switching device disposed on a sidewall of said breeding chamber; the background equipment is connected with the cold-hot switching device through the network equipment and is used for controlling the cold-hot switching device to start to work when the temperature values in the received temperature and humidity parameters are abnormal.

8. The livestock breeding system of claim 7, further comprising an ammonia gas detector disposed in said breeding chamber;

the ammonia gas detector is connected with the background equipment through the network equipment and is used for transmitting the collected ammonia gas concentration value of the culture room to the background equipment.

9. The livestock breeding system of claim 8, further comprising an air exhaust disposed on a sidewall of said breeding chamber;

the background equipment is connected with the exhaust device through the network equipment and is used for controlling the exhaust device to start when detecting that the ammonia concentration value of the culture room is higher than a threshold value.

10. An animal farming system according to any one of claims 1 to 9, wherein a plurality of movable floor boards are laid on an upper side of the ground surface of the farming room; each floor is arranged on the upper side of the ground surface through a telescopic bracket; when the telescopic bracket is in a contraction state, the plurality of floors are seamlessly spliced and form a cavity with the ground surface;

the background equipment is connected with the controller of the telescopic support through the network equipment and is used for controlling the telescopic support to stretch.

Images