KR20220149189A - Livestock product history integrated management system - Google Patents

Abstract

The present invention relates to a livestock history integrated management system. The livestock history integrated management system includes: a breeding phase electronic tag which is attached to the livestock's ear and stores individual history information including an individual identification number of the livestock, birth and breeding information; a DNA sample collector which collects a DNA sample from the livestock at the slaughter phase and stores the same in a collection capsule; a slaughter site terminal which identifies information on a slaughter phase electronic tag attached for each collection capsule and information on the breeding phase electronic tag of the livestock together, of which a DNA sample is collected through the collection capsule, by an RFID method and couples the identified information on the breeding phase and slaughter phase electronic tags of the livestock product with each other to transmit the same; a processing site terminal which identifies information on a processing phase electronic tag attached to the livestock produced by processing the slaughtered livestock and information on the slaughter phase electronic tag attached to the slaughtered livestock together by the RFID method and couples the identified information on the slaughter phase and processing phase electronic tags of the livestock with each other to transmit the same; and a history management server which receives information on the breeding phase, slaughter phase, and processing phase electronic tags provided from the slaughter site terminal and the processing site terminal, respectively, and, on that basis, databases individual history information of the livestock for each individual identification number or each collection capsule so as to store and manage the same. The present invention has the advantage of integrally managing all phases of production, slaughter, processing, distribution, and consumption of individual history information for every livestock bred in a livestock site in a systematical manner.

Description

Livestock product history integrated management system

In general, imports of US beef linked to the international trend of FTAs have recently become a big social issue. In particular, the BSE (bovine spongiform encephalopathy) countermeasures law, which is a zoonosis that can infect both humans and animals, is It gives anxiety due to the limitation of its effectiveness.

Although there are differences in scientific technology and management systems in many countries, including the EU, where mad cow disease is most prevalent, the cattle traceability system is applied and used as a basic system trusted by consumers.

In Korea, according to the results of the beef negotiations with the United States, national attention is being paid to the beef originality and cattle traceability. , is presented as a means to differentiate beef produced by region and farmhouse.

And, the core of the cattle traceability system implemented in foreign and domestic countries as described above is to utilize the DNA uniqueness of individual cattle using DNA technology.

To elaborate on the domestic standards, the beef traceability system was promoted as a pilot project by selecting some related companies and cities and counties from October 2004. Based on the "Act", it was implemented in the breeding stage from December 22, 2008, and then expanded to the distribution stage from June 22, 2009, and is now fully implemented.

Briefly explaining the beef traceability system, the beef traceability system records and manages information from the birth of cattle to slaughter, processing, and sales, and is a system for tracking and promptly responding to problems in hygiene and safety in case of problems. to be.

Meanwhile, as the beef traceability system was stably established, the pork traceability system was fully implemented on December 28, 2014 in line with this trend. Briefly explaining the pork traceability system, the pork traceability system records and manages huge step-by-step information of pigs and pork, and in the event of a problem, it enables rapid action by tracing back according to the movement path of the pig or pork. In addition, it is a system that reassures consumers by providing historical information when selling pigs or pork.

In addition, livestock tracers, such as the beef tracer and pork tracer, require a process of collecting the DNA sample of the livestock product during the slaughtering process, then drying and storing the collected DNA sample.

Briefly explaining the method of collecting DNA samples from cattle in the current beef traceability system, a quality assessor collects DNA samples from slaughtered meat by hand using scissors and puts the DNA samples in a paper collection card. The drying process is carried out at 70-80°C for 3 hours. In addition, the dried meat DNA sample should be stored for 2 to 3 years, and in the process of storage, it may be used as a sample required for DNA testing and then stored again. In other words, DNA samples of cattle livestock are obtained through various processes such as collection, drying, storage, use, and re-storage, and various operations are required for each process in this series of processes.

And, the same applies to the process of collecting DNA samples of pig livestock products from the pork history system. If the manual operation using scissors used to collect DNA samples from meat is equally applied to DNA samples from pork, excessive cost increases and management difficulties may occur due to an increase in working hours and personnel.

Therefore, at this point in time when the pork traceability system has just been implemented, it is very necessary to establish a pork traceability management system that can more easily and stably collect a DNA sample of pork and apply it.

The present invention has been devised to solve the above problems, and an object of the present invention is to appropriately attach an electronic tag for individual recognition of livestock products such as cattle and pigs for each breeding stage, slaughter stage and processing stage of livestock products, and By recognizing the RFID method and transmitting it to a separate history management server, it is an RFID-based system that enables the systematic and integrated management of all stages from production to slaughter, processing, distribution and consumption of individual history information on all livestock products raised at livestock sites. It is to provide an integrated management system for livestock product history and a method therefor.

Another object of the present invention is that the process of collecting DNA samples from slaughtered livestock products can be performed relatively easily and quickly, and in this process, history information using electronic tags is given to the DNA samples for each livestock product, and at the same time, the livestock products produced are also the corresponding livestock products. Efficient distribution management of livestock products based on the same electronic tag information as the electronic tag information given to It is to provide an RFID-based integrated livestock product history management system and its method that enable accurate and rapid management of livestock products through management methods such as

In order to achieve the above object, a first aspect of the present invention includes: a breeding stage electronic tag attached to the ears of livestock products and storing individual history information including birth and breeding information as well as individual identification numbers of the livestock products; a DNA sampler for collecting DNA samples from slaughtered livestock and storing them in a collection capsule; The RFID method recognizes the information of the electronic tag in the breeding phase of livestock products from which DNA samples are collected through the collection capsule together with the information on the electronic tag of the slaughter phase attached to each collection capsule, and the breeding phase and slaughter of the recognized livestock product, respectively. a slaughter site terminal for transmitting information of the step electronic tag by combining it with each other; The RFID method recognizes the information of the processing stage electronic tag attached to the livestock product produced by processing the slaughtered livestock product as well as the information of the slaughter stage electronic tag attached to the slaughtered livestock product. a processing site terminal for transmitting information of the step electronic tag by combining it with each other; and receiving the information of the breeding step, slaughter step, and processing step electronic tag transmitted from the slaughter-site terminal and the processing-site terminal, respectively, based on this, databaseize and store the individual history information of livestock products by individual identification number or collection capsule And to provide an RFID-based livestock product history integrated management system including a history management server to manage.

A second aspect of the present invention is a breeding stage electronic tag attached to the ears of livestock products and storing individual history information including birth and breeding information as well as individual identification numbers of the livestock products; a DNA sampler for collecting DNA samples from slaughtered livestock and storing them in a collection capsule; The RFID method recognizes the information of the electronic tag of the slaughter stage attached to each collection capsule and the electronic tag of the breeding stage of livestock products from which DNA samples are collected through the collection capsule, and the information of the recognized electronic tag in the slaughter stage a slaughter site terminal for synchronizing information of the recognized breeding stage electronic tag; The RFID method recognizes the information of the processing stage electronic tag attached to the livestock product produced by processing the slaughtered livestock product and the information of the slaughter stage electronic tag attached to the slaughtered livestock product, and the information of the recognized processing stage electronic tag is described above. a processing site terminal for synchronizing information of the recognized slaughter stage electronic tag; and the information of the breeding step, slaughter step and processing step electronic tag synchronized from the slaughter-site terminal and the processing-site terminal is provided, and based on this information, the object history information of livestock products is converted into a database by object identification number or collection capsule, and stored and It is to provide an RFID-based livestock product history integrated management system including a history management server to manage.

Here, a sales field terminal for recognizing the information of the processing step electronic tag attached to the livestock product and outputting it to the outside is further included, and the sales field terminal is, when the livestock product is abnormal, from the processing step electronic tag of the livestock product. It is preferable to synchronize the recognized information with the abnormal information of the corresponding livestock product and transmit it to the history management server.

Preferably, the information of the processing step electronic tag attached to the livestock product is recognized and transmitted to the history management server, and individual history information of livestock products mapped with the information of the processing step electronic tag is transmitted from the history management server. A sales field terminal for receiving and externally outputting is further included, wherein the sales field terminal synchronizes the abnormal information of the livestock product with the information recognized from the processing step electronic tag of the livestock product when the livestock product is abnormal, and the history management can be sent to the server.

Preferably, the DNA sampler is in the form of a tube with one side open and the other side closed in the longitudinal direction, so that the DNA sample of the livestock product is inserted into the opening part through an insertion operation accompanied by rotation for the livestock product starting from the opening part on one side. The dragon flesh is introduced, and a blade having a cutting function through twisting of the incoming DNA sample flesh is formed inside the closed other side, and the blade is perpendicular to the closed inner surface opposite to the open portion in the direction of the opening. a collection capsule in the form of a plate having both ends connected to the side of the tube while extending at the same time in a direction parallel to the closed inner surface, and having a coupling portion formed on the other closed side to receive rotational force; an electric rotary device for transmitting the rotational force to the coupling unit through the rotational force transmitting unit during rotational driving, including a rotational force transmitting unit for coupling the coupling unit and the one-touch method of the collection capsule; and the slaughter step electronic tag attached to the collection capsule for classification by the collection capsule from which the DNA sample is collected.

Preferably, the coupling portion of the collection capsule is in a form in which a coupling groove having an angled surface is formed so that the rotational force transmitting portion of the electric rotating device is inserted to prevent idling, and the electric rotating device is in the coupling groove The rotational power generated by including the inserted rotational force transmission unit in the form of an angled shaft may be transmitted to the coupling unit through the rotational force transmission unit.

Preferably, the coupling part of the collection capsule is in the form of a nipple extending from the body of the collection capsule into which the flesh for DNA sample of livestock is introduced, and the electric rotating device is in the form of a nipple through variable diameter. It may be formed in a form including a rotational force transmission portion for gripping the coupling portion or releasing the gripping state.

Preferably, the information of the breeding stage electronic tag attached to the ear of the livestock product is recognized, and at least one of amnion/transfer information, disease/vaccine information, and mortality information of the corresponding livestock product together with the recognized breeding stage electronic tag information. A breeding site terminal for transmitting individual history information to the history management server is further included, wherein the history management server receives information of the breeding stage electronic tag transmitted from the breeding site terminal and individual history information of the corresponding livestock product, based on the information In this way, it is possible to store and manage the database of animal history information of livestock products by individual identification number or collection capsule.

Preferably, the history management server may store and manage the database of the individual history information of livestock products for each farm so that the individual status can be inquired by each farm.

A third aspect of the present invention comprises the steps of: (a) providing an electronic tag for breeding stages in which individual history information including birth and breeding information, including individual identification numbers of the corresponding livestock products, is stored for each livestock product; (b) In the process of collecting a DNA sample of the livestock product through a DNA sampler during slaughter of the livestock product to which the breeding step electronic tag has been given, the slaughter step electronic tag in which the slaughter information is stored in the collection capsule included in the DNA sampler attaching; (c) recognizing the information of the electronic tag in the breeding stage of livestock products from which DNA samples are collected through the collection capsule together with the information of the electronic tag in the slaughter stage attached to the collection capsule through the slaughter site terminal in an RFID method; (d) combining the information of the breeding step and the slaughter step electronic tag of the corresponding livestock product recognized in step (c) through the slaughter site terminal and transmitting the information to a separate history management server; (e) attaching a processing step electronic tag in which processing information is stored to livestock products produced by processing the livestock products slaughtered in step (b); (f) recognizing the information of the slaughter stage electronic tag attached to the livestock product slaughtered in step (b) together with the information of the processing stage electronic tag attached to the livestock product through the processing site terminal in an RFID method; (g) combining the information of the slaughter step and the processing step electronic tag of the corresponding livestock product recognized in step (f), respectively, through the processing site terminal and transmitting the information to the history management server; and (h) based on the information of the breeding step, slaughter step, and processing step electronic tag transmitted in steps (d) and (g) respectively through the history management server, each individual identification number or collection capsule individual of livestock products It is to provide an RFID-based livestock product history integrated management method including the step of storing and managing the history information into a database.

A fourth aspect of the present invention includes the steps of: (a') providing an electronic tag for breeding step in which individual history information including birth and breeding information, as well as an individual identification number of the corresponding livestock product, is stored for each livestock product; (b') In the process of collecting a DNA sample of the livestock product through a DNA sampler during slaughter of the livestock product to which the breeding step electronic tag has been applied, the slaughter step electronic tag in which slaughter information is stored in the collection capsule included in the DNA sampler attaching; (c') recognizing the information of the electronic tag in the breeding stage of livestock products in which DNA samples are collected through the collection capsule together with the information of the electronic tag in the slaughter stage attached to the collection capsule through the slaughter-site terminal in an RFID method; (d') synchronizing the information of the breeding stage electronic tag recognized in the step (c') with the information of the slaughter stage electronic tag recognized in the step (c') through the slaughter site terminal; (e') attaching a processing step electronic tag in which processing information is stored to livestock products produced by processing the livestock products slaughtered in step (b'); (f') recognizing the information of the slaughter stage electronic tag attached to the slaughtered livestock product together with the information of the processing stage electronic tag attached to the livestock product through the processing site terminal in an RFID method; (g') synchronizing the information of the electronic tag of the slaughter stage recognized in the step (f') with the information of the electronic tag of the processing stage recognized in the step (f') through the processing site terminal; and (h') for each individual identification number or collection capsule based on the information of the breeding step, slaughter step and processing step electronic tag synchronized in steps (d') and (g') through the history management server, respectively. To provide an RFID-based integrated livestock product history management method including the step of storing and managing animal history information of livestock products into a database.

Here, after the step (h) or step (h'), the step of recognizing the information of the processing step electronic tag attached to the livestock product through the sales terminal; and outputting the information of the processing step electronic tag recognized by the sales field terminal to the outside, wherein when the livestock product is abnormal, the livestock product corresponding to the information recognized from the processing step electronic tag of the livestock product in the sales field terminal It is preferable to further include the step of synchronizing the abnormality information of the product and transmitting it to the history management server.

Preferably, after the step (h) or step (h'), the step of recognizing the information of the processing step electronic tag attached to the livestock product through the sales terminal; transmitting information of the processing step electronic tag recognized by the sales field terminal to the history management server; detecting individual history information of livestock products mapped according to the information of the processing step electronic tag transmitted from the sales field terminal through the history management server and transmitting it to the sales field terminal; The method further comprises the step of receiving and externally outputting individual history information of livestock products transmitted from the history management server through the sales field terminal, and when the livestock product is abnormal, the processing step of the livestock product in the sales field terminal from the electronic tag It may further include the step of synchronizing the recognized information about the abnormality information of the livestock product and transmitting it to the history management server.

Preferably, after the step (a) or step (a'), the step of recognizing the information of the breeding stage electronic tag given to the livestock product through a breeding site terminal; The step of transmitting at least one individual history information of amnioticity/transfer information, disease/vaccine information, and mortality information of the corresponding livestock product to the history management server together with the information of the breeding stage electronic tag recognized by the breeding site terminal. In addition, the information on the breeding stage electronic tag transmitted from the breeding site terminal through the history management server and the individual history information of the livestock product are provided, and based on this information, the individual history information of livestock products by individual identification number is converted into a database, stored and managed. It may further include the step of

Preferably, in the step (h) or step (h'), the history management server can store and manage the database of the individual history information of livestock products for each farm so that the individual status can be inquired by each farm.

According to the RFID-based livestock product history integrated management system and method of the present invention as described above, an electronic tag for individual recognition of livestock products such as cattle and pigs is appropriately attached for each breeding stage, slaughtering stage and processing stage of livestock products. And, by recognizing this by RFID method and transmitting it to a separate history management server, it is possible to systematically and integrated management of all stages from production to slaughter, processing, distribution and consumption of individual history information on all livestock products raised at livestock sites. There is an advantage.

In addition, according to the present invention, the process of collecting DNA samples from slaughtered livestock products can be performed relatively easily and quickly. The electronic tag information identical to the electronic tag information given to livestock products is given, and based on this, the distribution management of livestock products is efficiently performed. There is an advantage in that the management of livestock products can be performed accurately and quickly through management methods such as tracking.

1 is an overall block diagram for explaining the livestock product history integrated management system according to an embodiment of the present invention.
2 to 9 are diagrams for explaining the configuration of a DNA sampler applied to an embodiment of the present invention.
10 is an overall flowchart for explaining the livestock product history integrated management method according to an embodiment of the present invention.

The above-described objects, features and advantages will be described below in detail with reference to the accompanying drawings, and accordingly, those skilled in the art to which the present invention pertains will be able to easily implement the technical idea of the present invention. In describing the present invention, if it is determined that a detailed description of a known technology related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description will be omitted.

Terms including ordinal numbers such as first, second, etc. may be used to describe various elements, but the elements are not limited by the terms. The above terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, a first component may be referred to as a second component, and similarly, a second component may also be referred to as a first component. The terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention. The singular expression includes the plural expression unless the context clearly dictates otherwise.

The terms used in the present invention have been selected as currently widely used general terms as possible while considering the functions in the present invention, but these may vary depending on the intention or precedent of a person skilled in the art, the emergence of new technology, and the like. In addition, in a specific case, there is a term arbitrarily selected by the applicant, and in this case, the meaning will be described in detail in the description of the corresponding invention. Therefore, the term used in the present invention should be defined based on the meaning of the term and the overall content of the present invention, rather than the name of a simple term.

In the entire specification, when a part "includes" a certain component, it means that other components may be further included, rather than excluding other components, unless otherwise stated. In addition, terms such as "...unit" and "module" described in the specification mean a unit that processes at least one function or operation, which may be implemented as hardware or software, or a combination of hardware and software. .

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the embodiments of the present invention illustrated below may be modified in various other forms, and the scope of the present invention is not limited to the embodiments described below. The embodiments of the present invention are provided to more completely explain the present invention to those of ordinary skill in the art.

Each block in the accompanying block diagram and combinations of steps in the flowchart may be executed by computer program instructions (execution engine), which computer program instructions may be executed by a processor of a general-purpose computer, special-purpose computer, or other programmable data processing equipment. It may be mounted so that its instructions, which are executed by the processor of a computer or other programmable data processing equipment, create means for performing the functions described in each block of the block diagram or in each step of the flowchart. These computer program instructions may also be stored in a computer-usable or computer-readable memory, which may direct a computer or other programmable data processing equipment to implement a function in a particular manner, the computer-usable or computer-readable memory. It is also possible for the instructions stored in the block diagram to produce an article of manufacture containing instruction means for performing a function described in each block of the block diagram or each step of the flowchart.

And, since the computer program instructions may be mounted on a computer or other programmable data processing equipment, a series of operating steps are performed on the computer or other programmable data processing equipment to create a computer-executed process to create a computer or other program It is also possible that instructions for performing the possible data processing equipment provide steps for carrying out the functions described in each block of the block diagram and each step of the flowchart.

Additionally, each block or step may represent a module, segment, or portion of code comprising one or more executable instructions for executing specified logical functions, and in some alternative embodiments the blocks or steps referred to in the block or step. It should be noted that it is also possible for functions to occur out of sequence. For example, it is possible that two blocks or steps shown one after another may be performed substantially simultaneously, and also the blocks or steps may be performed in the reverse order of the corresponding functions, if necessary.

1 is an overall block diagram for explaining an integrated livestock product history management system according to an embodiment of the present invention, and FIGS. 2 to 9 are diagrams for explaining the configuration of a DNA sampler applied to an embodiment of the present invention to be.

1 to 9, the RFID-based livestock product history integrated management system according to an embodiment of the present invention is largely a breeding stage electronic tag 100, a DNA sample collector 110, a slaughter stage electronic tag 120. , the slaughter site terminal 130 , the processing stage electronic tag 140 , the processing site terminal 150 and the history management server 160 , and the like. In addition, the RFID-based livestock product history integrated management system according to an embodiment of the present invention may be configured to further include a sales field terminal 170 and a breeding field terminal 180 .

Here, the breeding stage electronic tag 100 is attached to the ears (or body parts) of livestock products (eg, cows, pigs, ducks, chickens, etc.), and includes the individual identification number of the livestock product, birth and breeding information, etc. The object history information included is stored.

This breeding stage electronic tag 100 can be produced by inputting and registering individual history information including birth and breeding information along with the individual identification number of the livestock product at the time of birth of the livestock product through a separate RFID register (not shown). In addition, it is preferable that such object history information is transmitted to the history management server 160 at the time of registration, and is managed as a database (DB) for each individual identification number.

The DNA sampler 110 collects a DNA sample from the slaughtered livestock and stores it in the collection capsule 111 .

The detailed configuration of the DNA sampler 110 will be described with reference to FIGS. 2 to 9 .

Figure 2 is a perspective view showing the main part of the DNA sampler, Figure 3 is an enlarged perspective view showing the coupling structure between the collection capsule and the electric rotary device in Figure 2, Figure 4 is a cross-sectional view showing the internal configuration of the collection capsule in the DNA sampler . And, Figure 5 is a block diagram showing the electrical configuration of the electric rotating device in the DNA sampler.

As shown, the DNA sampler 110 is configured to include a collection capsule 111 and an electric rotating device 112 .

The collection capsule 111 is a disposable capsule for collecting a DNA sample from slaughtered livestock products and then drying and storing the collected DNA sample.

That is, the collection capsule 111 has an open portion 111a formed on one side in the longitudinal direction, and the rotational force transmission portion of the electric rotating device 112 is coupled to the other side thereof according to the rotational driving of the electric rotating device 112 . It rotates in conjunction with the rotational force transmission part. To this end, on the opposite side of the opening portion 111a of the collection capsule 111 in the longitudinal direction, a coupling portion 111b for coupling with the rotational force transmitting portion of the electric rotary device 112 is formed, and such a coupling portion 111b With respect to the electric rotary device 112 to be described later will be described further.

And, the collection capsule 111 is inserted into the livestock product for DNA sample collection in a state of rotation in association with the rotational force transmission part of the electric rotating device 112, that is, the collection capsule 111 is its opening (111a). In a state in which is directed toward the livestock product for DNA sample collection, an insertion operation accompanied by rotation is performed on the corresponding livestock product, and accordingly, the flesh of the corresponding livestock product is introduced into the collection capsule 111 . And, the flesh of livestock products flowing into the collection capsule 111 is broken due to the torsion phenomenon caused by the rotation of the collection capsule 111 while no further inflow is made in the state where the collection capsule 111 is filled, and thus the collection capsule The flesh of livestock stuffed in (111) is used as a DNA sample.

And, for this purpose, the collection capsule 111 may have a blade 111c formed on the opposite inner surface of the opening 111a based on the longitudinal direction thereof. That is, the blade 111c rotates in conjunction with the collection capsule 111 in the interior of the collection capsule 111, and at this time, the blade 111c provides a rotational force to the flesh of livestock products filled into the collection capsule 111 and at the same time it Cutting function through

That is, the flesh of livestock products filled into the collection capsule 111 is twisted through rotation by receiving rotational force through the blade 111c. It is normally accommodated in the collection capsule 111 in the form of a piece of flesh.

And, for this purpose, the blade 111c extends in the direction of the open portion 111a while forming perpendicular to the closed surface opposite the open portion 111a with respect to the longitudinal direction of the collection capsule 111 and is parallel to the closed surface. Based on one direction, both ends are made in the form of a plate connected to the side of the collection capsule (111).

And, the collection capsule 111 may be in a form in which one or more vent holes 111d are formed for drying the collected livestock DNA samples. In addition, the collection capsule 111 may be formed of a porous material for drying the collected livestock DNA sample.

In addition, the collection capsule 111 may include a slaughter stage electronic tag 120 (refer to FIG. 1 ) for classification by collection capsule.

The electric rotary device 112 is coupled to the collection capsule 111 to transmit rotational power to the collection capsule 111 .

That is, the electric rotary device 112 is provided with a rotational force transmission portion for detachably coupled to the coupling portion 111b of the collection capsule 111, in an embodiment of the present invention, the coupling portion of the collection capsule 111. As an example, (111b) is a form including a coupling groove (111e) having an angled portion. That is, the coupling groove 111e has an angled surface to prevent the rotational force transmitting portion from idling in a state in which the rotational force transmitting portion of the electric rotating device 112 is inserted. Accordingly, the rotational force transmission portion of the electric rotating device 112 is exemplified in the form of an angled shaft, and the detailed configuration of the electric rotating device 112 will be described based on this.

The electric rotating device 112 may be configured to include a rotation driving unit 112b and a holding case 112a, and the electric rotating device 112 is a speed switch 112c and an operation switch 112d and a battery ( 112f) may be further included.

The rotation driving unit 112b is a part that generates rotational power, and the rotation driving unit 112b includes a rotational force transmission unit 112e in the form of an angled shaft that is inserted into the coupling groove 111e of the collection capsule 111. The rotational power thus generated is transmitted to the coupling part 111b of the collection capsule 111 through the rotational force transmission part 112e. And, in one embodiment of the present invention, the angular shaft, which is the rotational force transmitting unit 112e, and the coupling groove 111e of the collection capsule 111 are detachably coupled through an interference fit method as an example, but the present invention does not It is not limited.

The gripping case 112a accommodates the rotational driving unit 112b to always expose the angular axial region of the rotational force transmitting unit 112e to the outside when the rotational driving unit 112b is rotated. In other words, the gripping case 112a is a part that forms the outer shape and the basic body of the electric rotary device 112, and the gripping case 112a is gripped by a user or a gripping device.

The speed switch 112c serves to set the rotational speed when the electric rotary device 112 is rotated, that is, the rotational speed is set in various ways when the rotational driving unit 112b is rotated through the speed switch 112c. can

The operation switch 112d serves as a signal input function for starting the rotational driving of the electric rotary device 112, that is, the rotational driving of the rotational driving unit 112b through the ON operation of the operation switch 112d. is initiated.

The battery 112f is for supplying power to the electric rotating device 112, and by this battery 112f, the electric rotating device 112 is capable of supplying power at all times under the condition that the battery 112f is not in a discharged state. , Accordingly, the electric rotary device 112 can be moved and used in a portable manner in various places without being constrained by the location that an external power source must exist.

Next, another example of the coupling structure between the collection capsule and the electric rotary device will be described with reference to FIGS. 6 and 7 .

6 is a perspective view showing another example of the coupling structure between the collection capsule and the electric rotary device in the DNA sampler, and FIG. 7 is a cross-sectional view showing the internal structure of the collection capsule according to FIG. 6 .

As shown, the collection capsule 211 has a reduced diameter from the body of the collection capsule 211 for coupling with the electric rotary device 212 and has a coupling portion 211b in the form of a nipple extending therefrom. In addition, the collection capsule 211 has a blade 211c like the collection capsule 111 according to FIGS. 2 to 5 .

And, the electric rotary device 212 includes a rotational force transmission portion of the form of gripping or releasing the gripping state of the spigot-type coupling portion 211b of the collection capsule 211 through a variable diameter. Referring to FIG. 6 , the rotational force transmission part consists of three gripping pieces 212e arranged in a circle, and these three gripping pieces 212e rotate the rotary operation unit 212f provided in the electric rotary device 212 . While operating in the form of expanding or reducing the diameter according to the direction, the apex coupling portion 211b of the collection capsule 211 is gripped or released from the gripped state.

And, since the other configuration of the electric rotary device 212 is the same as that described with reference to FIGS. 2 to 5 , it will be understood through the description with reference to FIGS. 2 to 5 .

Next, the capsule holder 113 and the cover 114 in the DNA sampler 110 will be described with reference to FIGS. 8 and 9 .

8 is a perspective view showing a capsule holder and a cover in the DNA sampler, and FIG. 9 is a cross-sectional view of FIG. 8 .

As shown, the capsule holder 113 is configured to include a lower plate 113a and an upper plate 113b and a support 113c for supporting the lower plate 113a and the upper plate 113b in a spaced apart state.

The lower plate 113a is a portion forming the base of the capsule holder 113 , and the lower plate 113a is formed with a plurality of support grooves 113a-1 for supporting the lower end of the collection capsule 111 .

Both ends of the support 113c in the longitudinal direction are coupled to the lower plate 113a and the upper plate 113b, respectively. As described above, the support 113c supports the lower plate 113a and the upper plate 113b in a spaced apart state. do.

The upper plate 113b faces the lower plate 113a in a spaced apart state through the support 113c, and a plurality of support holes 113b-1 corresponding to the support grooves 113a-1 of the lower plate 113a are formed. As such, the support hole 113b-1 functions to support the insertion of the collection capsule 111 and the upper portion of the inserted collection capsule 111 .

According to the above configuration, the collection capsule 111 is inserted for each support hole 113b-1 of the upper plate 113b, and the collection capsule 111 inserted into the support hole 113b-1 in this way is lowered to the lower plate 113a. It is mounted on the capsule holder 113 while supporting it in the support groove 113a-1 of the upper plate 113b and supporting the upper part in the support hole 113b-1 of the upper plate 113b.

And, in an embodiment of the present invention, the upper plate 113b and the lower plate 113a are each in the form of a rectangular plate, and the four supports 113c are located at the four corners of the upper plate 113b and the lower plate 113a, respectively. is an example, but the present invention is not limited thereto. That is, the upper plate 113b and the lower plate 113a may have a circular, triangular, or pentagonal or more polygonal shape, and the support 113c has the shape of the upper plate 113b and the lower plate 113a and the upper plate 113b and the lower plate 113b. It can be installed in an appropriate number within the range that satisfies the conditions for stably supporting the liver.

The cover 114 covers the capsule holder 113 in a state in which the collection capsule 111 is mounted on the capsule holder 113 and blocks the capsule holder 113 and the collection capsules 111 mounted thereon from the outside. .

The process of collecting a livestock DNA sample through the DNA sampler of the above configuration will be briefly described with reference to FIGS. 2 to 5 and FIGS. 8 and 9 .

First, the collection capsule 111 before use mounted on the capsule holder 113 is drawn out and coupled to the electric rotating device 112 . At this time, after withdrawing the collection capsule 111 from the capsule holder 113 , it may be a method of coupling the thus drawn collection capsule 111 to the electric rotating device 112 , otherwise, the rotational force of the electric rotating device 112 is transmitted. A method of withdrawing the collection capsule 111 from the capsule holder 113 by coupling the portion to the coupling portion 111b of the collection capsule 111 before use mounted on the capsule holder 113 may be used.

That is, the collection capsule 111 is inserted from the capsule holder 113 by inserting the rotational force transmitting part 112e in the form of an angled shaft of the electric rotary device 112 into the coupling groove 111e of the collection capsule 111 in an interference fit method. can be withdrawn

And, after the collection capsule 111 is coupled to the electric rotating device 112 in this way, the electric rotating device 112 is driven to rotate and the collection capsule 111 is inserted into the livestock product for DNA sample collection in a state accompanied by rotation. make it That is, the collection capsule 111 is inserted into the livestock product for DNA sample collection while rotating in association with the rotational drive of the electric rotary device 112, and in this process, the flesh of the livestock product is introduced into the collection capsule 111, and the collection capsule As the flesh of the livestock is cut through the function of the blade 111c provided in the 111, the collection of the livestock DNA sample in the collection capsule 111 is completed.

And, this livestock DNA sample collection process is simpler than the method of collecting a sample using the existing scissors, and thus the operation of collecting the livestock DNA sample becomes easier.

Then, after the collection capsule 111, where the collection of the livestock DNA sample is completed, is placed in the original position of the capsule holder 113 again, the electric rotating device 112 is moved from the collection capsule 111, which has been remounted in this way. separate

And, after the livestock DNA samples are collected in all the collection capsules 111 of the capsule holder 113 through this series of processes, all the collection capsules 111 in which the livestock DNA samples are collected in this way are the capsule holder 113. Drying of the livestock DNA samples for each collection capsule 111 is made in a state mounted on the .

And, the cover 114 is the capsule holder 113 or the collection capsule 111 is used before the collection capsule 111 is used, so that the capsule holder 113 in which the livestock sample is being dried for each collection capsule 111, etc. Cover the holder 113 to protect the capsule holder 113 and the collection capsules 111 mounted thereon from the outside.

In addition, in the case of the embodiment with reference to FIGS. 6 and 7 , there is only a difference only in the process in which the collection capsule 111 and the electric rotary device 112 are combined, and the overall process is the same as in FIGS. 2 to 5 and 8 described above. It is the same as the content described with reference to FIG. 9 .

That is, in the case of the embodiment with reference to FIGS. 6 and 7 , the rotational manipulation unit 212f of the electric rotary device 212 is rotated to enlarge the diameter of the rotational force transmission part composed of the three gripping pieces 212e, and then the diameter After inserting the spigot-shaped coupling portion 211b of the collection capsule 211 between the enlarged three gripping pieces 212e, the rotary operation portion 212f is operated in the opposite direction to determine the diameter by the three gripping pieces 212e. It can be reduced, so that the three gripping pieces 212e can be gripped in a manner that tightens the apex coupling portion 211b of the collection capsule 211 .

And, when the electric rotating device 212 and the collection capsule 211 are separated, the electric rotating device ( The collection capsule 211 is separated from the 212 .

As can be seen from the above description, the DNA sampler 110 according to an embodiment of the present invention uses a portable electric rotary device 112, 212 to collect capsules 111 and 211 in the form of tubes. ) is inserted into the livestock product for DNA sample collection with rotation, and then the DNA sample of the livestock product can be collected through a simple operation of separating.

In addition, a series of processes for collecting livestock DNA samples accompanied by the rotation of the collection capsules 111 and 211 using the portable electric rotating devices 112 and 212 and storing the collection capsules 111 and 211 from which the samples were collected. This simple continuous operation makes it possible to take the DNA sample of livestock products that are slaughtered in a very large number on a domestic basis, thereby making it easier to collect DNA samples.

In addition, since the collection capsules 111 and 211 and the holder 113 for mounting the collection capsules are standardized, it is possible to easily carry, transport, and store the collection capsules 111 and 211 before or after taking a sample, In addition, a large amount of collection capsules (111, 211) can be efficiently stored in a smaller space, and through this, a large amount of collection capsules (111, 211) can be managed more efficiently.

Returning to FIG. 1 again, the slaughter site terminal 130 is a breeding stage electronic tag for livestock products in which DNA samples are collected through the collection capsule 111 together with information on the slaughter stage electronic tag 120 attached to each collection capsule ( 100) is recognized by the RFID (Radio Frequency Identification) method, and the information of the breeding stage electronic tag 100 and the slaughtering stage electronic tag 120 of the corresponding livestock product recognized by the RFID method is combined with each other to create a history management server It performs a function of transmitting to 160 .

As another example, the slaughter site terminal 130 is a breeding stage electronic tag ( 100) is recognized by the RFID method, and the information of the slaughter stage electronic tag 120 recognized by the RFID method is synchronized with the information of the breeding stage electronic tag 100 recognized by the RFID method to manage history. It can be transmitted to the server 160 .

Here, the slaughter stage electronic tag 120 is attached to the collection capsule 111 as well as attached to the slaughtered livestock product that has been slaughtered and sent to the processing and production site. Alternatively, it may be in the form of storing various information on livestock products that are bred or slaughtered and provided individually to the corresponding slaughtered livestock products. In addition, as can be seen from the above-mentioned contents, the electronic tag 120 for the slaughter stage may be given to each livestock product from the time of breeding of livestock products, and alternatively, it may be given to livestock products entering the slaughterhouse. have.

In addition, the slaughter site terminal 130 may synchronize the information of the recognized slaughter stage electronic tag 120 with the individual history information of livestock products from which the DNA sample has been collected through the corresponding collection capsule 111 . This is an example of the case in which the slaughter stage electronic tag 120 stores only slaughter-related identification information. Accordingly, the slaughter site terminal 130 inputs the individual history information of livestock products to which the slaughter stage electronic tag 120 is attached. Received and synchronized with the identification information of the electronic tag 120 of the slaughter step, the synchronized information is transmitted to the livestock product history management server 160 .

On the other hand, if the slaughter stage electronic tag 120 is manufactured in a form in which the individual history information of the corresponding livestock product is stored for each livestock product, the slaughter site terminal 130 only recognizes the information of the slaughter stage electronic tag 120 and is thus recognized. The information of the slaughter step electronic tag 120 is transmitted to the livestock product history management server 160 .

The processing step electronic tag 140 is attached to livestock products produced by processing slaughtered livestock products that have been slaughtered, and may be manufactured in a form in which only processing-related identification information is stored. It may be in the form of storing information and providing individually to the corresponding livestock products.

The processing site terminal 150 transmits the information of the slaughter stage electronic tag 120 attached to the slaughtered livestock product together with the information of the processing stage electronic tag 140 attached to the livestock product produced by processing the slaughtered livestock product that has been slaughtered. method, and the information of the electronic tag 120 of the slaughter step and the information of the electronic tag 140 of the processing step of the corresponding livestock product recognized by the RFID method are combined with each other and transmitted to the history management server 160 do.

As another example, the processing site terminal 150 includes information on the processing stage electronic tag 140 attached to the livestock product produced by processing the slaughtered livestock product that has been slaughtered and the slaughter stage electronic tag 120 attached to the slaughtered livestock product. The information is recognized by the RFID method, and the information of the recognized electronic tag 120 in the slaughter step is synchronized with the information of the electronic tag 140 in the processing step recognized by the RFID method, and the information can be transmitted to the history management server 160 .

The history management server 160 includes the information of the breeding stage electronic tag 100, the information of the slaughter stage electronic tag 120, and the processing stage electronic tag 140 transmitted from the slaughter site terminal 130 and the processing site terminal 150, respectively. ) is provided, and based on this, it stores and manages the database (DB) of the individual history information of livestock products by individual identification number and/or collection capsule.

As another example, the history management server 160 synchronizes the information of the breeding stage electronic tag 100, the information of the slaughter stage electronic tag 120, and the processing stage electronic tag from the slaughter site terminal 130 and the processing site terminal 150. Each of the information of (140) can be provided, and based on this, individual history information of livestock products can be stored and managed as a database (DB) by individual identification number and/or by collection capsule.

In addition, the history management server 160 may store and manage the database (DB) of the individual history information of livestock products for each farm so that the status of the individual by each farm can be inquired.

On the other hand, the breeding stage electronic tag 100, the slaughter stage electronic tag 120, and the processing stage electronic tag 140 applied to an embodiment of the present invention may be, for example, an RFID tag or an NFC (Near Field Communication) tag. , the present invention is not limited thereto. In one embodiment of the present invention, the RFID tag is used as an example.

Additionally, a sales field terminal 170 for recognizing the information of the processing step electronic tag 140 attached to the livestock product and outputting it to the outside may be further included.

The sales field terminal 170 recognizes the information of the processing stage electronic tag 140 attached to the livestock product in an RFID method and transmits it to the history management server 160 , and transmits the information of the processing stage electronic tag 140 . It performs a function of receiving and externally outputting individual history information of livestock products mapped with the information from the history management server 160 .

That is, the sales site terminal 170 recognizes the information of the processing stage electronic tag 140 attached to the livestock product in the RFID method and transmits it to the history management server 160 , and accordingly, the history management server 160 is the sales site Detects the individual history information of livestock products mapped with the information of the processing stage electronic tag 140 transmitted from the terminal 170 and transmits it to the corresponding sales site terminal 170, and the sales field terminal 170 is a history management server ( 160) may be to externally output the individual history information of livestock products received from.

In addition, the sales site terminal 170 may have a function of synchronizing the corresponding information with the information of the processing step electronic tag 140 when there is an abnormality in the livestock product and transmitting it to the history management server 160 .

As described above, the sales field terminal 170 is usually carried by the purchaser of livestock products, and in one embodiment of the present invention, for example, a portable terminal having computing and communication functions, such as a smart phone or a tablet PC. , but the present invention is not limited thereto.

Furthermore, the RFID method recognizes the information of the breeding stage electronic tag 100 attached to the ear of the livestock product, and the acquisition/transfer information of the livestock product together with the information of the breeding phase electronic tag recognized by the RFID method, disease/vaccine information and A breeding site terminal 180 that transmits at least one individual history information of the death information to the history management server 160 may be further included.

At this time, the history management server 160 receives the information of the breeding stage electronic tag transmitted from the breeding site terminal 180 and the individual history information of the corresponding livestock product, and based on this, the individual of the livestock product by individual identification number and/or by collection capsule. It is desirable to store and manage the history information as a database (DB).

Hereinafter, an RFID-based livestock product history integrated management method according to an embodiment of the present invention will be described in detail.

10 is an overall flowchart for explaining the livestock product history integrated management method according to an embodiment of the present invention.

1 to 10, in the livestock product history integrated management method according to an embodiment of the present invention, first, individual history information including birth and breeding information as well as the individual identification number of the corresponding livestock product for each livestock product is stored. A breeding stage electronic tag 100 is given (S100).

Thereafter, in the process of collecting a DNA sample of the livestock product through the DNA sampler 110 during slaughter of the livestock product to which the breeding stage electronic tag 100 is given, the collection capsule 111 included in the DNA sampler 110 ) The slaughter step electronic tag 120 in which the slaughter information is stored is attached (S200).

Then, through the slaughter site terminal 130, along with the information of the slaughter stage electronic tag 120 attached to the collection capsule 111, the livestock breeding stage electronic tag in which the DNA sample is collected through the corresponding collection capsule 111 The information of (100) is recognized by the RFID method (S300).

Next, through the slaughter site terminal 130, the information of the breeding stage electronic tag 100 and the slaughter stage electronic tag 120 of the corresponding livestock product recognized by the RFID method in step S300 are combined with each other, and the history management server It transmits to (160) (S400).

Meanwhile, in the step S400, the information of the breeding step electronic tag 100 recognized in the step S300 is synchronized with the information of the slaughter step electronic tag 120 recognized in the step S300 through the slaughter site terminal 130, and the history It may be transmitted to the management server 160 .

Thereafter, the processing step electronic tag 140 in which processing information is stored is attached to the livestock product produced by processing the livestock product that has been slaughtered in step S200 (S500).

Then, through the processing site terminal 150, the information on the slaughter stage electronic tag 120 attached to the livestock product that has been slaughtered in step S200 together with the information on the processing stage electronic tag 140 attached to the livestock product is RFID method is recognized (S600).

Next, through the processing site terminal 150, the information of the slaughter stage electronic tag 120 and the processing stage electronic tag 140 of the corresponding livestock product recognized by the RFID method in step S600, respectively, are combined with each other to manage the history. It is transmitted to the server 160 (S700).

On the other hand, in the step S700, the information of the slaughter step electronic tag 120 recognized in the step S600 is synchronized with the information of the processing step electronic tag 140 recognized in the step S600 through the processing site terminal 150, and the history It may be transmitted to the management server 160 .

Thereafter, the information of the breeding stage electronic tag 100, the slaughter stage electronic tag 120 information, and the processing stage electronic tag 140 information transmitted in steps S400 and S700, respectively, through the history management server 160, respectively. Based on the database (DB), the individual history information of livestock products by individual identification number and/or collection capsule is stored and managed (S800).

Meanwhile, in the step S800, based on the information of the electronic tag 100 in the breeding stage synchronized through the history management server 160, the information of the electronic tag 120 in the slaughter stage, and the information of the electronic tag 140 in the processing stage, It is possible to store and manage animal history information of livestock products by individual identification number and/or collection capsule into a database (DB).

In addition, in step S800, the history management server 160 may store and manage the database (DB) of the individual history information of livestock products for each farm so that the individual status can be inquired by each farm.

Additionally, after the step S100, the step of recognizing the information of the breeding stage electronic tag 100 provided to the livestock product through the breeding site terminal 180, and the breeding phase electronic tag recognized by the breeding site terminal 180 ( 100) may further include transmitting, to the history management server 160, the individual history information of at least any one of acquisition/transfer information, disease/vaccine information, and mortality information of the corresponding livestock product together with the information of 100), and the history management server The information of the breeding stage electronic tag 100 transmitted from the breeding site terminal 180 through 160 and the individual history information of the corresponding livestock are provided, and based on this information, the individual history information of livestock products by individual identification number is stored in the database (DB). It may further include the step of storing and managing the data.

Furthermore, after the step S800, the step of recognizing the information of the processing step electronic tag 140 attached to the livestock product through the sales field terminal 170, and the processing step electronic tag recognized by the sales field terminal 170 (140) may further include the step of externally outputting the information of the livestock product, in the case of an abnormality of the livestock product, the processing step of the corresponding livestock product in the sales site terminal 170 is added to the information recognized from the electronic tag 140 of the corresponding livestock product. It may further include the step of synchronizing the abnormal information and transmitting it to the history management server 160 .

In addition, after the step S800, the step of recognizing the information of the processing step electronic tag 140 attached to the livestock product through the sales field terminal 170, and the processing step electronic tag recognized by the sales field terminal 170 The step of transmitting the information of 140 to the history management server 160 and the livestock products mapped according to the information of the processing step electronic tag 140 transmitted from the sales site terminal 170 through the history management server 160 The steps of detecting and transmitting the individual history information of the livestock product to the sales field terminal 170, and receiving and externally outputting the individual history information of livestock products transmitted from the history management server 160 through the sales field terminal 170 are more In the event of an abnormality in the livestock product, the sales field terminal 170 synchronizes the abnormal information of the livestock product with the information recognized from the processing step electronic tag 140 of the livestock product to the history management server 160 It may further include the step of transmitting.

Although a preferred embodiment of the RFID-based integrated livestock product history management system and method according to the present invention has been described above, the present invention is not limited thereto, and within the scope of the claims and the detailed description of the invention and the accompanying drawings. It is possible to carry out various modifications and this also belongs to the present invention.

100: breeding stage electronic tag, 110: DNA sampler,
111, 211: collection capsule, 111a: opening,
111b, 211b: coupling part, 111c, 211c: blade,
111d, 211d: vent hole, 111e: coupling groove,
112, 212: electric rotating device, 112a: holding case,
112b: rotary drive unit, 112c: speed switch;
112d: operation switch, 112e, 212e: torque transmission unit,
112f: battery, 113: capsule holder,
113a: lower plate, 113a-1: support groove,
113b: top plate, 113b-1: support hole,
113c: support, 114: cover,
120: slaughter stage electronic tag, 130: slaughter site terminal,
140: processing stage electronic tag, 150: processing site terminal,
160: history management server, 170: sales field terminal,
180: breeding site terminal

Claims (1)

a breeding stage electronic tag attached to the ears of livestock products and storing individual history information including birth and breeding information as well as individual identification numbers of the corresponding livestock products;
a DNA sampler for collecting DNA samples from slaughtered livestock and storing them in a collection capsule;
The RFID method recognizes the information of the electronic tag of the slaughter stage attached to each collection capsule and the electronic tag of the breeding stage of livestock products from which DNA samples are collected through the collection capsule, and the information of the recognized electronic tag in the slaughter stage a slaughter site terminal for synchronizing information of the recognized breeding stage electronic tag;
The RFID method recognizes the information of the processing stage electronic tag attached to the livestock product produced by processing the slaughtered livestock product and the information of the slaughter stage electronic tag attached to the slaughtered livestock product, and the information of the recognized processing stage electronic tag is described above. a processing site terminal for synchronizing information of the recognized slaughter stage electronic tag; and
Received information of the synchronized breeding stage, slaughter stage and processing stage electronic tag from the slaughter-site terminal and the processing-site terminal, and based on this information, databaseized the individual history information of livestock products by individual identification number and collection capsule, storing and managing including a history management server that
The information of the processing step electronic tag attached to the livestock product is recognized and transmitted to the history management server, and individual history information of livestock products mapped with the information of the processing step electronic tag is received from the history management server and externally a sales field terminal that outputs; and
Recognizes the information of the breeding stage electronic tag attached to the ear of the livestock product, and individual history information including information of the recognized breeding stage electronic tag along with pumping information, transfer information, disease information, vaccine information, and mortality information of the corresponding livestock product A breeding field terminal for transmitting to the history management server is further included,
The sales field terminal is a terminal carried by the purchaser of the livestock product, and when the livestock product is abnormal, it synchronizes the abnormal information of the livestock product with the information recognized from the processing step electronic tag of the livestock product to the history management server transmit,
The history management server receives the information of the breeding stage electronic tag and the individual history information of the corresponding livestock product transmitted from the breeding site terminal, and based on this, databaseizes and stores the individual history information of livestock products by individual identification number and collection capsule. and management, and stores and manages the database of animal history information of livestock products by farmhouse so that individual status can be inquired by farmhouse.
The DNA sampler is in the form of a tube with one side open and the other side closed in the longitudinal direction, and through an insertion operation accompanied by rotation for the livestock product starting from the opening on one side, the meat for the DNA sample of the livestock product is inserted into the opening. A blade with a cutting function through the twisting of the flesh for the incoming DNA sample is formed inside the closed other side,
The blade is in the form of a plate extending in the direction of the opening while forming perpendicular to the closed inner surface opposite the opening, and at the same time, both ends are connected to the side of the tube in a direction parallel to the closed inner surface, and a rotational force is applied to the other closed side. A collection capsule in which a coupling part for receiving transmission is formed, and a rotational force transmission part for one-touch coupling with the coupling part of the collection capsule, and an electric rotary device for transmitting the rotational force to the coupling part through the rotational force transmission part during rotation. , the slaughter step electronic tag attached to the collection capsule for classification by the collection capsule from which the DNA sample is collected,
The coupling part of the collection capsule is a form in which a coupling groove having an angled surface is formed so that the rotational force transmitting part of the electric rotating device is inserted to prevent idling or the body of the collection capsule into which the flesh for a DNA sample of livestock is introduced It has a reduced diameter and is in the form of an extended spigot,
The electric rotary device is a form of transmitting the rotational power generated by including a rotational force transmission unit in the form of an angled shaft inserted into the coupling groove to the coupling unit through the rotational force transmission unit, or grips the nipple-shaped coupling part through a diameter variable. Livestock product history integrated management system, characterized in that it is formed in a form including a rotational force transmission part to release the holding state.

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