CN109949551B - Output method and output system for cultured object - Google Patents

Abstract

The application discloses an output method of a culture. The output method of the culture comprises the following steps: conveying the culture to a transfer station, wherein the transfer station can be arranged at an outlet of a farm, a boundary is arranged on the transfer station, one side of the boundary, which is close to the farm, is a clean area, and one side of the boundary, which is close to the outside, is a dirty area; detecting whether output personnel enter the polluted area from the clean area or not in the process that the cultured objects enter the polluted area from the clean area; and if output personnel enter the dirty area from the clean area, generating alarm information. The application also discloses an output system of the culture. Be provided with the boundary in order to distinguish clean district and dirty district on the transfer station, detection device is at the in-process that the breed article entered into dirty district from clean district, detects whether there is output personnel to enter into dirty district from clean district, when output personnel enter into dirty district from clean district, produces alarm information with the early warning, avoids getting into dirty district and carrying the germ to return to the plant because of output personnel's follow clean district, and causes the potential safety hazard of plant.

Description

Output method and output system for cultured object

Technical Field

The application relates to the technical field of cultivation electronic informatization, in particular to an output method and an output system of a cultivated object.

Background

At present, in order to prevent epidemic diseases from infecting cultured objects, farmers generally use some epidemic prevention measures to ensure that the cultured objects in the farm are in relatively sterile environment, for example, a protective ring is arranged around the farm to isolate the internal and external environment, and areas, facilities, conveying channels of the cultured objects and the like which can pass in and out of the farm need to be strictly sterilized and disinfected, so that the cultured objects are prevented from being infected by the external germs, and the cultured objects are prevented from being diseased and even dead. However, when the farm is discharged to the outside, germs may be introduced into the farm due to the flow of the farm and the personnel, which may cause a safety hazard of the farm.

Disclosure of Invention

The embodiment of the application provides a culture output method and system.

The method for outputting the culture according to the embodiment of the application comprises the following steps: conveying the culture to a transfer station, wherein the transfer station can be arranged at an outlet of a farm, a boundary is arranged on the transfer station, one side of the boundary, which is close to the farm, is a clean area, and one side of the boundary, which is close to the outside, is a dirty area; detecting whether output personnel enter the dirty area from the clean area or not in the process that the culture enters the dirty area from the clean area; and if the output personnel enter the dirty area from the clean area, generating alarm information.

In some embodiments, the output method further comprises: detecting whether receiving personnel enter the clean area from the dirty area or not during the process that the culture enters the dirty area from the clean area; and if the receiving personnel enter the clean area from the dirty area, generating alarm information.

In some embodiments, the output method further comprises: driving the farmed matter from the clean zone to the dirty zone.

In some embodiments, the detecting whether output personnel enter the dirty section from the clean section comprises: transmitting a detection signal to a receiver arranged on the other side of the transfer station through a transmitter arranged on one side of the transfer station, wherein the height of the detection signal is higher than the height of the cultivated object; and if the receiver cannot receive the detection signal, outputting a feedback result of the output personnel entering the dirty area from the clean area.

In some embodiments, the output method further comprises: acquiring the real-time position of the culture; analyzing the position change of the culture according to the real-time position; and when the position of the culture returns to the clean area from the dirty area, generating an alarm signal.

The output system of the breed of this application embodiment includes: the transfer station can be arranged at an outlet of a farm, a boundary is arranged on the transfer station, one side of the boundary, which is close to the farm, is a clean area, and one side of the boundary, which is close to the outside, is a dirty area; the conveying channel is used for conveying the culture to the transfer station; the detection device is used for detecting whether output personnel enter the dirty area from the clean area or not in the process that the culture enters the dirty area from the clean area; and if the output personnel enter the dirty area from the clean area, the alarm generates alarm information.

In some embodiments, the detection device is further configured to detect whether receiving personnel enter the clean area from the clean area during the process of the culture entering the dirty area from the clean area; and if the receiving personnel enter the clean area from the dirty area, the alarm generates alarm information.

In some embodiments, the output system further comprises: a repeller for repelling the farmed matter from the clean area to the dirty area.

In certain embodiments, the detection device comprises: the transmitter is arranged on one side of the transfer station and is used for transmitting a detection signal; the receiver is arranged on the other side of the transfer station and used for receiving a detection signal; the height of the detection signal is higher than the height of the cultivated object, and when the receiver cannot receive the detection signal, the detection device outputs a feedback result of outputting personnel entering the dirty area from the clean area; or the detection device outputs a feedback result of the receiving personnel entering the clean area from the dirty area to the alarm.

In some embodiments, the output system further comprises: a positioner, the positioner to: acquiring the real-time position of the culture; analyzing the position change of the culture according to the real-time position; when the position of the culture returns to the clean area from the dirty area, the alarm generates an alarm signal.

In the output method and the output system of the culture in the embodiment of the application, a boundary is arranged on a transfer station through which the culture passes to distinguish a clean area from a dirty area, a detection device is arranged at a preset position of the transfer station, in the process that the culture enters the dirty area from the clean area, whether an output person who outputs the culture enters the dirty area from the clean area or not is detected, when the output person enters the dirty area from the clean area, alarm information is generated to give an early warning, the situation that the output person carries germs to return to a farm because the output person enters the dirty area from the clean area is avoided, the potential safety hazard of the farm is caused, and the safety of the culture and the farm is improved.

Additional aspects and advantages of the present application will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the present application.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic flow diagram of an output method according to some embodiments of the present application;

FIG. 2 is a block schematic diagram of an output system of certain embodiments of the present application;

3-5 are schematic diagrams of scenarios of output systems of certain embodiments of the present application;

FIG. 6 is a schematic diagram of an output system of certain embodiments of the present application;

FIG. 7 is a schematic flow chart diagram of an output method according to some embodiments of the present application;

FIG. 8 is a schematic diagram of an output system of certain embodiments of the present application;

FIG. 9 is a schematic flow chart diagram of an output method according to some embodiments of the present application;

FIG. 10 is a schematic flow chart diagram of an output method of certain embodiments of the present application;

FIG. 11 is a block schematic diagram of an output system of certain embodiments of the present application;

FIG. 12 is a schematic flow chart diagram of an output method of certain embodiments of the present application;

FIG. 13 is a block schematic diagram of an output system of certain embodiments of the present application;

FIG. 14 is a schematic diagram of an output system of certain embodiments of the present application.

Detailed Description

Embodiments of the present application will be further described below with reference to the accompanying drawings. The same or similar reference numbers in the drawings identify the same or similar elements or elements having the same or similar functionality throughout. In addition, the embodiments of the present application described below in conjunction with the accompanying drawings are exemplary and are only for the purpose of explaining the embodiments of the present application, and are not to be construed as limiting the present application.

Referring to fig. 1, the method for outputting the culture according to the embodiment of the present application includes the steps of:

01: conveying the culture to a transfer station, wherein the transfer station can be arranged at an outlet of a farm, a boundary is arranged on the transfer station, one side of the boundary, which is close to the farm, is a clean area, and one side of the boundary, which is close to the outside, is a dirty area;

02: detecting whether output personnel enter the polluted area from the clean area or not in the process that the cultured objects enter the polluted area from the clean area; and

03: if output personnel enter the dirty area from the clean area, alarm information is generated.

Referring to fig. 2, the output system 100 for the farm according to the embodiment of the present disclosure includes a transfer station 10, a conveying passage 20, a detecting device 30, and an alarm 40. The transfer station 10 can be arranged at an outlet of a farm, a boundary line 11 is arranged on the transfer station 10, one side of the boundary line 11 close to the farm is a clean area, and one side of the boundary line 11 close to the outside is a dirty area; the conveying channel 20 is used for conveying the breeding objects to the transfer station 10; the detection device 30 is used for detecting whether the output personnel 50 enter the dirty area from the clean area or not in the process that the culture enters the dirty area from the clean area; the alarm 40 is used to generate alarm information when an output person 50 enters the dirty area from the clean area.

It is understood that farms may be used to raise the farmed matter, such as pastures, cattle farms, horse farms, sheep farms, pig farms, etc.; farmed objects that may be farmed in a farm include, but are not limited to, cattle, horses, sheep, pigs, etc. This application uses pig farm, breed to explain for the pig as the example with the plant, and the plant is cattle farm, horse farm, sheep farm, and the breed is principle similarity such as ox, sheep, horse, no longer gives unnecessary detail here.

When the pigs are transported from the pig farm to the outside, the process of loading the pigs onto the transport means has a certain possibility of infecting germs for both the pigs and the operators (exporter 50, receiver 60), for example, the operators are likely to bring outside germs into the pig farm, the pigs are likely to infect outside germs during the loading process, and the like. Moreover, if the transport means cannot be completely adapted to the pig loading platform (transfer station 10) of the pig farm, the occurrence rate of the process of the intervention of the operator for loading the pigs (such as the pigs are scattered on the transfer station 10, and the operator needs to transfer the pigs back to the transfer station 10), the loading pressure of the pig and the operator (such as the transport means is not beneficial to the loading of the pigs, more labor of the operator is consumed to load the pigs, the accidents of the pigs can occur), the prolonging of the loading time and the like can be increased.

In the output method and the output system 100 of the cultured object according to the embodiment of the application, the transfer station 10 through which the cultured object passes is provided with the boundary line 11 to distinguish the clean area from the dirty area, the detection device 30 is arranged at the preset position of the transfer station 10, in the process that the cultured object enters the dirty area from the clean area, whether the output personnel 50 outputting the cultured object enters the dirty area from the clean area or not is detected, when the output personnel 50 enters the dirty area from the clean area, the alarm information is generated to give an early warning, the potential safety hazard of the farm due to the fact that the output personnel 50 enter the dirty area from the clean area and carry germs to return to the farm is avoided, and the safety of the cultured object and the farm is improved.

Referring to fig. 3 to 5, it can be understood that the dirty area is an external area possibly infected with germs, the clean area is a relatively sterile area in the farm, the farm may be provided with a plurality of outlets, and each outlet is provided with a transfer station 10, so as to ensure the safety of the whole pig farm and the convenience of transporting pigs. The transfer station 10 can be disposed at the exit of the farm, it can be understood that the transfer station 10 can be movably disposed at the exit of the farm, and the transfer station 10 can be freely moved to a suitable position and fixed relative to the ground, and can be lifted and lowered to a suitable height to be adapted to different transport means 70, so as to better load the pigs, and reduce the problems of possible germ infection, misoperation, accidents of the pigs and the like in the loading process of the pigs.

The boundary 11 is vertically disposed on the transfer station 10, and the boundary 11 may be a line-type logo disposed on the surface of the transfer station 10, so that when the line of sight of the exporter 50 and the recipient 60 is directed to the transfer station 10 (for example, observing the movement of pigs), the boundary 11 can be easily seen, and the possibility of the exporter 50 and the recipient 60 going beyond the boundary is reduced. The boundary 11 may further include vertical marks (e.g., vertical rods) erected on two sides of the transfer station 10 and corresponding to the line marks, so as to more completely cover the visual range of the output personnel 50 and the receiving personnel 60, improve the warning effect of the boundary 11, and further reduce the possibility of the output personnel 50 and the receiving personnel 60 going beyond the boundary.

More particularly, when the boundary 11 is a vertical mark provided on the transfer station 10, the detecting device 30 and the alarm 40 may be provided on the boundary 11, the detecting device 30 may directly detect pigs passing through the boundary 11, the exporter 50 and the receiver 60, and the alarm 40 may send alarm signals to the exporter 50 and the receiver 60 respectively located at both sides of the boundary 11, and the exporter 50 and the receiver 60 may easily receive the alarm signals, and the space utilization rate of the transfer station 10 may also be improved. In addition, fences (not shown) can be arranged around the transfer station 10 to prevent the pigs from falling from the transfer station 10 to the ground or other places during the loading process to cause accidents, the moving range of the pigs can be limited, the pigs can be promoted to move on the conveying channel 20 more quickly and orderly, and the safety and the conveying efficiency of the pigs during the loading process are improved.

The transportation path 20 is a path through which the pigs are transferred from the pig farm to the transfer station 10, and the transportation path 20 extends from the inside of the pig farm to the outside and is connected to the transfer station 10, that is, the transportation path 20 is located in a clean area. In one embodiment, the output channel 20 may be inclined to facilitate the movement of pigs from the output channel 20 to the transfer station 10, and to prevent the pigs from returning to the pig farm from the conveying channel 20, so as to improve the conveying efficiency of the pigs; in another embodiment, conveyor 20 may be configured as a conveyor track that moves pigs only toward transfer station 10 and blocks pigs from returning only from conveyor 20 to the pig farm. Of course, the specific form of the conveyance path 20 is not limited to the above-mentioned form, and may be specifically set in a specific embodiment.

The detection device 30 may be provided with a processor (not shown), which can process the received detection signal and send a feedback result according to the detection signal. Alarm 40 communication connection detection device 30 to the feedback result that receiving detection device 30 sent, alarm 40 can fix or detachably set up on transfer station 10, and alarm 40 can be located dirty district, clean district, and set up in the position that is close to output personnel 50 and receiving personnel 60, is convenient for output personnel 50 and receiving personnel 60 to receive alarm information. The concrete form of alarm 40 can be for devices that speaker, buzzer, loudspeaker, display and vibratable equipment etc. possess sound production, give out light or vibrations suggestion, and the alarm effect of the alarm information that alarm 40 of above form sent is better, and the output mode of alarm information is simple and easy, and relevant personnel can receive alarm information directly perceivedly, promotes getting of alarm information the effect to improve the security in pig farm.

In one embodiment, the alarm 40 may also be a terminal such as a smart phone, a tablet, a smart wearable device (e.g., a smart band), and the like. Referring to fig. 2 and 6, taking the alarm 40 as a smart phone as an example, the alarm 40 may include a display screen 42, a flash lamp (not shown) and a speaker (not shown), when the detection device 30 detects that the output staff 50 enters the dirty area from the clean area, the detection device sends a detected signal to the alarm 40, and an alarm message may be displayed on the display screen 42, so that the output staff 50 or a higher-level pig farm manager may take corresponding measures on the current border crossing behavior, such as disinfecting the output staff 50 and disinfecting a part of the clean area returned by the output staff 50, and the manager may also record the border crossing behavior of the output staff 50, punish the output staff 50 with more border crossing behaviors, and the like. More, alarm information still can be, the vibrations of alarm 40, the normal light of display screen 42 or flash light, scintillation, the sound that the speaker sent etc to richen alarm 40's alarm information, improve user experience.

Referring to fig. 5, the connecting structure 72 of the transport vehicle 70 is adapted and connected to the transfer station 10 and the transportation path 20, for example, to facilitate transporting pigs only into the transportation space of the transport vehicle 70. A truck 70 possibly contaminated by germs arrives from the outside at a pig farm loading area (i.e. a transfer station 10 at the exit of a pig farm), a truck driver (a receiver 60) and a pig farm worker (an output worker 50) stand on both sides of a dirty/clean area boundary indicated by a vertical boundary line 11, the pig farm worker (the output worker 50) is positioned on one side of the clean area, the pig is conveyed to the transfer station 10 through a conveying passage 20 and then loaded on the truck 70, the truck driver (the receiver 60) is left on one side of the dirty area to receive the pig, and a detection device 30 arranged near the boundary line 11 can detect whether the pig, the pig farm worker 50 and the truck driver 60 are out of range or not. The tail hook 72 of the truck 70 is well adapted to the transfer station 10 so that the truck 70 can be moved toward the pig farm with less human intervention, preventing cross-contamination of pigs, exporters 50 and recipients 60 moving back and forth between clean and dirty areas, and reducing the risk of contamination of the pig farm by the truck 70.

Referring to fig. 7, in some embodiments, the method for outputting the culture further includes the steps of:

04: detecting whether a receiving person enters the clean area from the dirty area or not in the process that the culture enters the dirty area from the clean area; and

05: if receiving personnel enter the clean area from the dirty area, alarm information is generated.

Referring to fig. 2, in some embodiments, the detecting device 30 is further used for detecting whether receiving personnel enter the clean area from the clean area during the process of the culture entering the dirty area from the clean area; and if receiving personnel enter the clean area from the dirty area, the alarm 40 generates alarm information.

It will be appreciated that not only is there a possibility that the exporter 50 will enter the clean area from the clean area and contaminate the pig farm with infectious pathogens, but also there is a possibility that the importer 60 will carry pathogens to contaminate both the clean area and the pig farm if the importer 60 enters the clean area from the clean area, and therefore the detection device 30 is also used to detect whether any importer 60 has entered the clean area from the clean area during the process of the pigs entering the clean area only from the clean area. When detecting that the receiving personnel 60 enter the clean area from the dirty area, the alarm 40 generates alarm information to warn relevant personnel (the output personnel 50, the receiving personnel 60, managers of the pig farm and the like) of border crossing behaviors, so that the safety of the pig farm is improved.

The specific form of the alarm 40 may be a speaker, a buzzer, a horn, a display, a vibratable device, and other devices with sound, light or vibration indication. In one embodiment, the alarm 40 may also be a terminal such as a smart phone, a tablet, a smart wearable device (e.g., a smart band), and the like. Referring to fig. 8, taking the alarm 40 as a smart phone as an example, the alarm 40 may include a display screen 42, a flash lamp (not shown) and a speaker (not shown), when the detection device 30 detects that the receiving staff 60 enters a clean area from a dirty area, the alarm 40 is sent with an early warning signal, and the display screen 42 displays an alarm message, so that the receiving staff 60 or a higher-level piggery manager can take corresponding measures for the current border crossing behavior, such as disinfecting a part of the clean area where the receiving staff 60 enters, the manager can record the border crossing behavior of the receiving staff 60, punishment is made for the receiving staff 60 with more border crossing behaviors, and the like. More, alarm information still can be, the vibrations of alarm 40, the normal light of display screen 42 or flash light, scintillation, the sound that the speaker sent etc to richen alarm 40's alarm information, improve user experience.

Referring to fig. 9, in some embodiments, the method for outputting the culture further includes the steps of:

06: driving the culture to travel from the clean area to the dirty area.

Referring to fig. 2 and 5, in some embodiments, the farm output system 100 further includes a driving device 80, and the driving device 80 is used for driving the farm to travel from the clean area to the dirty area.

It can be understood that the pig is only in comparatively chaotic disorder by the clear district to the in-process of marcing in dirty district, if let rely on the pig to only freely move in transfer passage 20, the speed of marcing is slower, efficiency is lower, the pig is difficult only to advance to transfer station 10 along transfer passage 20 in the pig farm, and accident easily takes place, only stop motionless if the pig, the pig is only crowded each other, the pig is only fallen down etc. use and drive ware 80 and drive the pig, promote the speed that the pig only marchs, can make the marcing of pig more orderly, improve the efficiency of carrying the pig. The width of the expeller 80 can be adapted to the width of the transport path 20 to completely expel pigs traveling on the transport path 20 and prevent skipping.

Referring to fig. 5, in one embodiment, the driving device 80 may be configured to be a plate shape and be held by the output person 50, the output person 50 holds the driving device 80 in the plate shape to drive the pigs from the pig farm to the outside, and the driving device 80 may block and push the pigs to drive the pigs from the transportation path 20 to the transfer station 10, and then the pigs are transported from the connection structure 72 connected to the transfer station 10 to the transportation space of the transportation means 70 to the outside. In another embodiment, the driving device 80 can also be a mechanical drive, such as a mechanical arm, a pushing plate, a pushing platform, etc., so as to avoid the contact between the output person 50 of the pig and the dirty area, reduce the manpower output, and improve the productivity.

Referring to fig. 10, in some embodiments, step 02 includes the steps of:

021: a transmitter arranged on one side of the transfer station transmits a detection signal to a receiver arranged on the other side of the transfer station, wherein the height of the detection signal is higher than the height of the cultivated object;

022: judging whether the receiver receives a detection signal; and

023: if not, outputting a feedback result of outputting the personnel entering the dirty area from the clean area; or

024: there is feedback result of receiving personnel entering the clean area from the dirty area.

Referring to fig. 2 and 11, in some embodiments, the detection device 30 includes a transmitter 32 disposed on one side of the transfer station and a receiver 34 disposed on the other side of the transfer station 10. The transmitter 32 is used to transmit a detection signal and the receiver 34 is used to receive the detection signal. The height of the detection signal is higher than the height of the cultivated object, when the receiver 34 does not receive the detection signal, the detection device 30 outputs a feedback result of the output personnel 50 entering the dirty area from the clean area, or a feedback result of the receiving personnel 60 entering the clean area from the dirty area to the alarm 40.

The transmitter 32 and the receiver 34 are respectively disposed on two opposite sides of the transfer station 10, i.e. on two opposite sides of the pig when passing through the transfer station 10, and the transmitter 32 and the receiver 34 can be disposed parallel or perpendicular to the boundary line 11, so that the detection signal emitted by the transmitter 32 can be parallel to the ground, thereby improving the detection accuracy. The height of the detection signal is higher than that of the pig, and the heights of the transmitter 32 and the receiver 34 are both higher than that of the pig, namely, the detection signal sent by the transmitter 32 is not blocked by the pig to influence the receiving of the receiver 34, so that when an output person 50 or a receiving person 60 with the height higher than that of the pig passes between the transmitter 32 and the receiver 34, the transmitter 32 is blocked to influence the receiver 34 to receive the detection signal, and then it can be judged that the output person 50 enters a dirty area from the clean area or the receiving person 60 enters the clean area from the dirty area, and then the alarm 40 is controlled to send a corresponding alarm signal.

In one embodiment, the detecting device 30 can be an infrared sensor, the transmitter 32 is an infrared transmitting tube, the receiver 34 is an infrared receiving tube, and the transmitter 32 can emit infrared rays and be received by the receiver 34, so that the accuracy is high and the detecting device 30 is provided. In addition, in order to further improve the accuracy of the detection device 30, a preset intensity threshold of infrared rays may be set in the processor of the detection device 30, when the intensity threshold of infrared rays received by the receiver 34 is lower than the preset threshold, it may be determined that the output person 50 enters the dirty area from the clean area, or the receiving person 60 enters the clean area from the dirty area, and then the detection device 30 outputs a feedback result to the alarm 40 to control the alarm 40 to send out an alarm message. In other embodiments, the detection device 30 may be other, and is not limited herein.

Referring to fig. 12, in some embodiments, the method for outputting the culture further includes the steps of:

07: acquiring the real-time position of a culture;

08: analyzing the position change of the culture according to the real-time position; and

09: when the position of the culture returns to the clean area from the dirty area, an alarm signal is generated.

Referring to fig. 2 and 13, in some embodiments, the output system 100 of the farm further includes a positioner 90, the positioner 90 being configured to: acquiring the real-time position of a culture; analyzing the position change of the culture according to the real-time position; and when the position of the culture returns to the clean area from the dirty area, the alarm generates an alarm signal.

Specifically, the locator 90 is a device having a real-time locating function, and can be connected to the alarm 30. Locator 90 can set up on one's body the pig, if set up on the ear tag of pig, make the form of foot ring in order to set up in the four limbs of pig or set up in other health positions of pig, be difficult for falling on one's body from the pig to can remove along with the removal of pig, possess higher precision. The locator 90 acquires the real-time position of the pig, the position change of the pig is analyzed through the real-time position of the pig, a preset route is arranged in the locator 90, when the pig deviates from the preset advancing route (if turning back), the locator 90 can judge that the possibility that the pig returns to a clean area from a dirty area exists, a feedback result is sent to the alarm 30, and the alarm 30 sends an alarm signal when receiving the feedback result.

The specific form of the alarm 40 may be a speaker, a buzzer, a horn, a display, a vibratable device, and other devices with sound, light or vibration indication. In one embodiment, the alarm 40 may also be a terminal such as a smart phone, a tablet, a smart wearable device (e.g., a smart band), and the like. Referring to fig. 14, taking the alarm 40 as a smart phone as an example, the alarm 40 may include a display screen 42, a flash lamp (not shown) and a speaker (not shown), when it is detected that the position of the pig returns from the dirty area to the clean area, a detected signal is sent to the alarm 40, and an alarm message may be displayed on the display screen 42, so that the output person 50 or the receiving person 60 may take measures for the current border crossing behavior of the pig, such as intercepting the movement of the pig, and re-disinfecting a part of the clean area where the pig arrives. More, alarm information still can be, the vibrations of alarm 40, control display screen 42 or the normal light of flash light, scintillation, the sound that the speaker sent etc to richen alarm 40's alarm information, improve user experience.

Furthermore, the detecting device 30 may further include a camera, which is disposed at a predetermined position of the transfer station 10 or the pig farm and aligned with the boundary line 11, and the detecting device 30 can capture images in real time, such as images of pigs, images of the output persons 50, images of the receiving persons 60, and other images. The processor of the detection device 30 sets the pig image (including the images of all parts of the body of the pig) and the background image (including only the images of the structures of the transfer station 10, the conveying passage 20, and the like) as normal images, the abnormal image includes the images of all parts of the body of the output person 50 and the receiving person 60, the images of other images, and the like, which are different from the normal images, and the like, and in addition, when the real-time image captured by the detection device 30 is reversed (opposite to the normal advancing direction, namely opposite to the direction in which the pig advances from the clean area to the dirty area), the reversed image is also an abnormal image. When the detecting device 30 captures the normal image near the boundary 11, no feedback result is sent out to ensure the accuracy of the detection result. When the detection device 30 catches the abnormal image near the boundary line 11, a feedback result is sent out, so that the alarm 40 sends out alarm information, the real-time detection capability of the detection device 30 is improved, and the relative safety of a pig farm is guaranteed.

In the description herein, reference to the description of the terms "certain embodiments," "one embodiment," "some embodiments," "illustrative embodiments," "examples," "specific examples," or "some examples" means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the application. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one of the feature. In the description of the present application, "a plurality" means at least two, e.g., two, three, unless specifically limited otherwise.

Although embodiments of the present application have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present application, and that variations, modifications, substitutions and alterations of the above embodiments may be made by those of ordinary skill in the art within the scope of the present application, which is defined by the claims and their equivalents.

Claims (6)

1. A method for outputting a culture, comprising:

conveying the culture to a transfer station, wherein the transfer station can be arranged at an outlet of a farm, a boundary is arranged on the transfer station, the boundary is a vertical mark arranged on the transfer station, one side of the boundary close to the farm is a clean area, and one side of the boundary close to the outside is a dirty area;

in the process that the culture enters the dirty area from the clean area, a transmitter arranged on one side of the transfer station transmits a detection signal to a receiver arranged on the other side of the transfer station, wherein the height of the detection signal is higher than the height of the culture; and

when the receiver does not receive the detection signal, outputting a feedback result of the output personnel entering the dirty area from the clean area; and

if the output personnel enter the dirty area from the clean area, alarm information is generated;

the output method further includes:

acquiring the real-time position of the culture through a positioner arranged on the culture;

analyzing the position change of the culture according to the real-time position; and

and when the position of the culture returns to the clean area from the dirty area, generating an alarm signal.

2. The farm output method according to claim 1, further comprising:

detecting whether receiving personnel enter the clean area from the dirty area or not during the process that the culture enters the dirty area from the clean area; and

and if the receiving personnel enter the clean area from the dirty area, alarm information is generated.

3. The farm output method according to claim 1, further comprising:

driving the farmed matter from the clean zone to the dirty zone.

4. An output system for a culture, comprising:

the transfer station can be arranged at an outlet of a farm, a boundary is arranged on the transfer station, the boundary is a vertical mark arranged on the transfer station, one side of the boundary close to the farm is a clean area, and one side of the boundary close to the outside is a dirty area;

the conveying channel is used for conveying the culture to the transfer station;

the detection device is used for detecting whether output personnel enter the dirty area from the clean area or not in the process that the culture enters the dirty area from the clean area; and

the alarm generates alarm information if the output personnel enter the dirty area from the clean area;

the detection device includes:

the transmitter is arranged on one side of the transfer station and is used for transmitting a detection signal; and

the receiver is arranged on the other side of the transfer station and is used for receiving a detection signal;

the height of the detection signal is higher than the height of the cultivated object, and when the receiver cannot receive the detection signal, the detection device outputs a feedback result of the output personnel entering the dirty area from the clean area to the alarm; or

The detection device outputs a feedback result of receiving personnel entering the clean area from the dirty area to the alarm;

the output system further includes:

a positioner disposed on the farm, the positioner being configured to: acquiring the real-time position of the culture;

analyzing the position change of the culture according to the real-time position;

when the position of the culture returns to the clean area from the dirty area, the alarm generates an alarm signal.

5. The farm output system of claim 4, wherein the detection device is further configured to, during the movement of the farm from the clean area to the dirty area:

detecting whether a receiving person enters the clean area from the dirty area; and

and if the receiving personnel enter the clean area from the dirty area, the alarm generates alarm information.

6. The farm output system of claim 5, further comprising:

a repeller for repelling the farmed matter from the clean area to the dirty area.

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