KR101699795B1 - Pork history management system using portable smart device and pork history management - Google Patents

Abstract

The present invention relates to a system and a method for managing the history of pork using a portable smart device, wherein the process of collecting a DNA sample from a slaughtered pig is relatively easy and quick, and an electronic tag Based on the application and smart device which can give the electronic tag information same as the electronic tag information given to the pig in the produced pork product and read it, The present invention relates to a history management system for a pork using a portable smart device, and more particularly, to a history management system for a pork using a portable smart device according to an embodiment of the present invention, Electronic tag A DNA sample sampler for collecting a DNA sample from a pig slaughtered after being fed and storing it in a collection capsule and attaching an electronic tag of the same information as the electronic tag of the pig to the collection capsule; A slaughter field terminal for reading the information of the electronic tag which is read from the slaughterhouse site terminal, an information receiving unit for receiving the information of the electronic tag to be read by the slaughterhouse terminal and storing the information by the collection capsule, Wherein the electronic tag is affixed to all of the pork products produced from the slaughtered pork for the identification of the pig, and the pork history management server is connected to the pork log management server Download and install the application Depending on the execution of the installation for pig distribution management applications can further include a portable smart device with an external output function of the electronic tag reading and the reading information of pork products.

Description

The present invention relates to a pork history management system using portable smart devices,

An embodiment of the present invention relates to a system and a method for managing the history of pork using a portable smart device, wherein the process of collecting a DNA sample from a slaughtered pig can be performed relatively easily and quickly, Based on the application and the smart device which can give the history information using the electronic tag and the pork product which is produced by giving the same electronic tag information as the electronic tag information given to the pig and read it, The present invention relates to a history management system and method of a pork using a portable smart device that enables efficient post-management management in case of an anomaly using tracking.

US beef imports linked to the international trend of the FTA have recently become a major social issue, and in particular, bovine spongiform encephalopathy (BSE), a common zoonosis that can infect humans and animals, It is giving anxiety due to limitations.

In many countries including the EU where the most cases of mad cow disease occur, there is a difference in scientific technology and management system, but the cattle traceability system is used as a basic system to be trusted by consumers.

In Korea, the country is concentrating on the originality and traceability of beef according to the results of the beef negotiation with the United States. The originality of the beef and the traceability of the beef are determined by country , Regional, and farm households, as a means of differentiating beef.

The core of the small traceability system that is being implemented in foreign countries as described above is to utilize the DNA uniqueness of individual cattle using DNA technology.

In Korea, the beef registration system was selected as a demonstration project by selecting some related companies, cities, and guns from October 2004, and it was announced on December 21, 2007 that "Beef trace history Law "on December 22, 2008, and it has been extended from June 22, 2009 to the distribution stage.

To briefly describe such a beef traceability system, beef traceability system records and manages information from the birth of a cattle to slaughtering, processing, and sale, and traces its history in case of problems in hygiene and safety, to be.

On the other hand, as the beef traceability system stabilized, the pork trace system was fully implemented on December 28, 2014. A brief description of such a pork hysteresis system is as follows: The pork hysterosystem records and manages large step-by-step information of pigs and pork, and traces back to the path of the pig or pork in case of a problem, It is also a system to reassure consumers by providing information on the history of sales of pigs and pork.

In addition, the livestock traceability agent such as the beef trace agent and the pork trace agent described above requires a step of drying a DNA sample collected after collecting the DNA sample of the livestock product during the slaughter process and storing the sample.

A brief description of the method of collecting DNA samples from cattle livestock in the current beef traceability system is as follows. The quality evaluator hand samples the DNA samples by hand using the scissors in the slaughtered meat and puts the collected DNA samples in a collection card made of paper Followed by drying at 70 to 80 ° C for 3 hours. This dried, cooked DNA sample should be stored for 2 to 3 years. During storage, it can be stored as a sample for DNA testing. In other words, DNA samples of cow's livestock products are obtained through various processes such as harvesting, drying, storage, use, and retention. In this series of processes, various processes are required for each process.

This will be the same in the process of collecting the DNA samples of pig livestock products from pork record keeping system. However, considering the fact that the number of pigs slaughtered in Korea exceeds 1 million per year, The same procedure can be applied when sampling the DNA samples of the pork with the scissors used during the sampling of the DNA samples.

Therefore, it is very necessary to establish a pork traceability management system that can easily and stably collect DNA samples of pork at the present time when the pork trace agent has just been implemented.

Korean Patent Laid-Open No. 10-2010-0011278 (published on Mar. 23, 2010), " Pig object management system and method using an electronic table " Korean Patent Laid-Open No. 10-2012-0107678 (published on Apr. 4, 2012), agricultural history traceability system and method thereof,

In the present invention, the process of collecting a DNA sample from a slaughtered pig can be performed relatively easily and quickly. In this process, history information using an electronic tag is given to a DNA sample of a pig, The present invention relates to a method for efficiently managing the distribution of pork products on the basis of an application and a smart device capable of providing the same electronic tag information as the electronic tag information given to the pork product, Provided is a history management system and method of a pork using a portable smart device that enables accurate and quick management of pork and pork products through management methods such as reverse tracking using an electronic tag in case of abnormalities.

A history management system for pork using a portable smart device according to an embodiment of the present invention is characterized in that a DNA sample is collected from pigs slaughtered after being fed with an electronic tag for identification and stored in a collection capsule, A soda field terminal for reading the information of the electronic tag attached to the collection capsule, and an information receiving unit for receiving information of the electronic tag read from the slaughter field terminal And a pork history management server for storing and storing the pork meat distribution management application classified into the collection capsules and including the reading function of the electronic tag, Also for the identification of pigs And downloading and installing the pork distribution management application from the pork history management server and executing an electronic tag reading of the pork products and an external output function of the read information according to execution of the installed pork distribution management application, And may further include smart devices.

In addition, the portable smart device has a function of synchronizing the goods abnormality information with the electronic tag information of the pork meat product through execution of the application for management of the pork meat distribution in the event of an abnormality of the pork meat product and a function of synchronizing the synchronized information with the pork meat history management To the server.

In addition, the DNA sampler is inserted into the open part of the pod, and the other part of the DNA sample sampler is opened in one side in the longitudinal direction and closed at the other side. And a blade having a cutting function through a twist of a fusing point for an incoming DNA sample is formed inside the closed one of the blades. The blade is perpendicular to the closed inner surface of the opposite side of the opening and extends in the direction of the opening And a coupling portion for receiving a rotational force to transmit the rotational force to the other side of the tube, wherein the coupling portion of the collection capsule and the one- And a rotational force transmitting portion for connecting the rotational force transmitting portion For an electric rotary machine for delivering the group coupling part, DNA samples are taken the capsule collection classification may include the electronic tag attached to the capsule collection.

In addition, the coupling portion of the collection capsule may be formed in an engaging groove having an angled one surface so that a rotation transmitting portion of the electric rotating device may be inserted to prevent idling, and the electric rotating device may include an angular shaft And transmits the generated rotational power to the coupling portion through the rotation force transmitting portion.

In addition, the coupling portion of the collection capsule is in the form of a cap extending from the main body of the collection capsule into which the flesh of the poultry sample is introduced, the diameter of which is reduced, and the motor- Or a torque transmitting portion for releasing the gripping state.

The method for managing the history of pork using the portable smart device according to the embodiment of the present invention includes the steps of: providing an identification electronic tag for each pig to be breed; and, when the pig is slaughtered with the electronic tag, A step of attaching an electronic tag storing the same information as the electronic tag to a collection capsule included in the DNA sampler in a process of collecting the electronic tag through a DNA sample collector, A step of reading the electronic tag read from the slaughterhouse terminal through the slaughterhouse terminal, a step of transmitting information of the electronic tag read from the slaughterhouse terminal to a pork history management server, And stores the collected capsule capsule identification information according to the identification information of the capsule capsule The method further comprising the step of attaching an electronic tag having the same information as the identifying electronic tag attached to the collection capsule to all of the pork products produced from the pig, Tag information is read according to the execution of the pork distribution management application of the portable smart device downloaded and installed from the pork log management server by downloading the pork distribution management application, And outputting electronic tag information of a pork product being read through a display unit of the portable smart device.

Further, a method for managing a history of pork using a portable smart device according to an embodiment of the present invention is characterized in that when the pork product is abnormally malfunctioned, the portable smart device is read from the electronic tag of the pork meat product after executing the application for management of the pork meat distribution And synchronizing the abnormal information of the pork products with the information and transmitting the information to the pork history management server.

According to an embodiment of the present invention, a process of collecting a DNA sample from a slaughtered pig can be performed relatively easily and quickly. In this process, history information using an electronic tag is given to a DNA sample of a pig, It is possible to effectively manage the distribution management of the pork products based on the application and the smart device which can give the same electronic tag information as the electronic tag information given to the pig and read it.

In addition, when an abnormality occurs in circulating pork products or when an abnormality occurs in a breeding pig, it is possible to perform the management of the pig and pork product accurately and quickly through the management method such as reverse tracking using the electronic tag.

1 is a block diagram illustrating a history management system for pork using a portable smart device according to an embodiment of the present invention;
FIGS. 2 to 9 are diagrams showing a configuration of a DNA sample collector in a history management system for pork using the portable smart device according to FIG. 1
10 and 11 are flowcharts showing a history management method of pork using a portable smart device according to an embodiment of the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, certain features, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with one embodiment. It is also to be understood that the position or arrangement of the individual components within each described embodiment may be varied without departing from the spirit and scope of the present invention.

The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the present invention is to be limited only by the appended claims, along with the full scope of equivalents to which the claims are entitled, if properly explained. In the drawings, like reference numerals refer to the same or similar functions throughout the several views.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments. Also, in certain cases, there may be a term selected arbitrarily by the applicant, in which case the meaning thereof 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, not on the name of a simple term, but on the entire contents of the present invention.

Whenever an element is referred to as " including " an element throughout the description, it is to be understood that the element may include other elements as well, without departing from the other elements unless specifically stated otherwise. In addition, "... "... Module " or the like means a unit for processing at least one function or operation, which may be implemented in hardware or software, or a combination of hardware and software.

A history management system and method of pork using a portable smart device according to an embodiment of the present invention will be described with reference to FIGS. 1 to 11. FIG.

First, a history management system for pork using a portable smart device according to an embodiment of the present invention will be described with reference to FIGS. 1 to 9. FIG.

1 is a block diagram illustrating a history management system for pork using a portable smart device according to an embodiment of the present invention.

As shown in the figure, a pork history management system 100 using a portable smart device according to an embodiment of the present invention includes a DNA sample collector 110, an slaughter field terminal 120, a pork history management server 130, , And a portable smart device (140).

The DNA sample collector 110 collects a DNA sample from a pig to be slaughtered and stores it in a collection capsule 111.

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

FIG. 2 is a perspective view showing a main part of a DNA sample collector, FIG. 3 is a perspective view enlarging a coupling structure between a collection capsule and an electric rotating device in FIG. 2, and FIG. 4 is a sectional view showing the internal structure of a collection capsule in a DNA sample collector . And FIG. 5 is a block diagram showing an electrical configuration of an electric rotating device in a DNA sample collector.

As shown, the DNA sampler 110 includes a collection capsule 111 and an electric rotating device 112.

The collection capsule 111 is a disposable capsule for collecting a DNA sample with slaughtered pork and then drying and storing the collected DNA sample. The collection capsule 111 is formed into a tubular shape having one side in the longitudinal direction thereof opened . That is, the collection capsule 111 is formed with an opening 111a at one side in the longitudinal direction and a rotational force transmitting portion of the electric rotating device 112 is coupled to the other side of the collection capsule 111, And is rotated in conjunction with the site. A coupling portion 111b for coupling with the rotational force transmitting portion of the electric rotating device 112 is formed on the opposite side of the opening portion 111a of the collection capsule 111 with respect to the longitudinal direction, Will be described further in the electric rotating device 112 described later.

The collection capsule 111 is inserted into the pork for DNA sampling in a rotating state in cooperation with the rotational force transmitting portion of the electric rotary device 112. In other words, Is directed to the pork for DNA sampling, the pork is subjected to an insertion operation with rotation, whereby the flesh of the pork is introduced into the interior of the collection capsule (111). The flesh of the pork introduced into the collection capsule 111 is broken due to the twisting phenomenon caused by the rotation of the collection capsule 111 while the collection capsule 111 is filled with no further inflow. The flesh of the pork filled in the pellet 111 is used as a DNA sample.

For this, the collection capsule 111 may be formed with a blade 111c on the inner surface opposite to the opening 111a with respect to the longitudinal direction. That is, the blade 111c rotates in conjunction with the collection capsule 111 inside the collection capsule 111, at which time the blade 111c provides rotational power to the flesh of the pork stuffed into the collection capsule 111 It cuts through it. That is, the flesh of the pork packed in the collection capsule 111 is subjected to rotational force through the blade 111c and is twisted by rotation. At this time, the twisting phenomenon is increased due to the rotation of the blade 111c, And is normally housed in the collection capsule 111 in the form of a lump of flesh.

To this end, the blade 111c extends perpendicular to the longitudinal direction of the capsule 111 of the blade 111c in the direction of the opening 111a and perpendicular to the closed one of the opposite sides of the opening 111a, And the both ends are connected to the side surface of the collection capsule 111, as shown in FIG.

And the collection capsule 111 may be in the form of forming one or more vent holes 111d for drying the sampled pork DNA sample. The collection capsule 111 may also be formed of a porous material for drying the sampled pork DNA sample.

And the collection capsule 111 may include an electronic tag (not shown, see Figure 1) for sorting by collection capsule.

The electric rotating device 112 is coupled with the collection capsule 111 to transfer rotational power to the collection capsule 111. [

That is, the electric rotating device 112 has a rotational force transmission portion for detachably coupling with the coupling portion 111b of the collection capsule 111. In this embodiment, the coupling portion 111b of the collection capsule 111 is provided with a rotation- And an engaging groove 111e having an angled portion. That is, the engaging groove 111e has an angled one surface in order to prevent idle rotation of the rotational force transmitting portion in a state where the rotational force transmitting portion of the electric rotating device 112 is inserted. Therefore, the rotational force transmitting portion of the electric rotating device 112 is in the form of an angular shaft, and the detailed structure of the electric rotating device 112 will be described on the basis of this.

The electric rotating device 112 may include a rotation driving part 112b and a holding case 112a and the electric rotating device 112 may include a speed switch 112c and an operation switch 112d and a battery 112f ). ≪ / RTI >

The rotation driving unit 112b generates rotational power. The rotation driving unit 112b includes an angular shaft type torque transmission unit 112e inserted into the coupling groove 111e of the collection capsule 111, And transmits the generated rotational power to the coupling portion 111b of the collection capsule 111 through the rotation force transmitting portion 112e. In this embodiment, the engaging groove 111e of the revolving-force transmitting portion 112e and the collar capsule 111 are detachably coupled through the interference fit, but the present invention is not limited thereto .

The holding case 112a houses the rotation driving part 112b so that the angular axis area of the rotation transmitting part 112e is always exposed to the outside when the rotation driving part 112b is driven to rotate. In other words, the gripping case 112a is a part forming the outer shape and basic body of the electric rotating device 112, and the gripping case 112a is gripped through a user or a gripping device.

The speed switch 112c functions to set the rotational speed of the electric rotating apparatus 112 during the rotational driving operation. In other words, the rotational speed of the rotational driving unit 112b is varied through the speed switch 112c .

The operation switch 112d functions to input a signal for starting the rotation drive of the electric rotating device 112. In other words, the rotation drive of the rotation drive part 112b is started through the ON operation of the operation switch 112d.

The battery 112f is for supplying power to the electric rotating apparatus 112. The electric rotating apparatus 112 can always be supplied with power under the condition that the battery 112f is not discharged by the battery 112f So that the electric rotating device 112 can be moved and used in a portable manner at various places without being restricted by the location where the external power source must be present.

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

FIG. 6 is a perspective view showing another example of a coupling structure between a collection capsule and an electric rotating device in a DNA sample collector, and FIG. 7 is a sectional view showing the internal structure of the collection capsule according to FIG.

As shown, the collection capsule 211 has a nipple-shaped engagement portion 211b extending from the body of the collection capsule 111 with a reduced diameter for engagement with the motor- The collection capsule 211 also has a blade 211c, like the collection capsule 111 according to Figs. 2-5.

The electric rotating device 212 includes a rotational force transmitting portion for gripping or releasing the gripping portion 211b of the collection capsule 211 through a variable diameter. 6, the rotational force transmission portion is composed of three gripping pieces 212e arranged in a circle, and these three gripping pieces 212e are rotatable about the rotation of the rotary operation portion 212f provided in the electric rotating device 212 And operates to expand or contract the diameter according to the direction of the collection capsule 211, thereby releasing the grip engagement portion 211b of the collection capsule 211 from the grip or grip state.

Other structures of the electric rotating device 212 are the same as those described with reference to Figs. 2 to 5, and will be understood from the description with reference to Figs. 2 to 5. Fig.

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

FIG. 8 is a perspective view showing a capsule holder and a cover in a DNA sample collector, and FIG. 9 is a sectional view of FIG. 8. FIG.

As shown in the figure, the capsule cradle 113 includes a lower plate 113a and an upper plate 113b, and a support 113c for supporting the lower plate 113a and the upper plate 113b apart from each other.

The lower plate 113a is a part forming the base of the capsule cradle 113. The lower plate 113a is formed with a plurality of support grooves 113a-1 for supporting the lower end of the collection capsule 111. [

The support base 113c is coupled to the lower plate 113a and the upper plate 113b at both ends in the longitudinal direction and the support base 113c is supported by the lower plate 113a and the upper plate 113b in a spaced- do.

The upper plate 113b is spaced apart from the lower plate 113a through a support base 113c and is provided with a plurality of support holes 113b-1 corresponding to the support grooves 113a-1 of the lower plate 113a The support hole 113b-1 serves to support the upper portion of the collection capsule 111 into which the collection capsule 111 is inserted and inserted.

The collection capsule 111 is inserted into the support hole 113b-1 by the support hole 113b-1 of the upper plate 113b, and the lower end of the collection capsule 111 is inserted into the lower plate 113a. And is held in the capsule cradle 113 while holding the upper portion thereof in the support hole 113b-1 of the upper plate 113b.

In this embodiment, the upper plate 113b and the lower plate 113a are each in the form of a quadrilateral plate, and the four supports 113c are positioned at the four corners of the upper plate 113b and the lower plate 113a, The present invention is not limited thereto. That is, the upper plate 113b and the lower plate 113a may be formed in a circular, triangular, or polygonal shape with at least a polygonal shape, and the supporting table may be formed between the upper plate 113b and the lower plate 113a and between the upper plate 113b and the lower plate 113b It can be installed at an appropriate number within a range satisfying a condition that can be stably supported.

The cover 114 functions to cover the capsule cradle 113 and the capsule cradle 113 and the collection capsules 111 stuck thereto from the outside in a state where the collection capsule 111 is placed on the capsule cradle 113 .

A process of collecting a pork DNA sample through a DNA sampler having the above-described structure will be briefly described with reference to FIGS. 2 to 5, 8 and 9.

First, the collection capsule 111 before use, which is stored in the capsule cradle 113, is taken out and is coupled to the electric rotating device 112. In this case, the collection capsule 111 may be pulled out from the capsule cradle 113, and then the collected capsule 111 may be coupled to the electric rotating device 112. Alternatively, the rotation of the electric rotating device 112 may be transmitted The collection capsule 111 may be connected to the coupling portion 111b of the pre-use collection capsule 111 placed on the capsule cradle 113 to draw the collection capsule 111 from the capsule cradle 113. [

That is, the rotational force transmitting portion 112e in the form of an angled shaft of the electric rotating device 112 is inserted into the coupling groove 111e of the collection capsule 111 in a forced fit manner, thereby collecting the collection capsule 111 from the capsule cradle 113 It can be withdrawn.

Then, after the collection capsule 111 is coupled to the electric rotating device 112, the electric rotating device 112 is rotationally driven so that the collection capsule 111 is inserted into pork for DNA sampling, . That is, the collection capsule 111 is inserted into the pork for DNA sampling while rotating in conjunction with the rotation drive of the electric rotary device 112. In this process, the flesh of the pork is introduced into the collection capsule 111, Collection of the pork DNA sample is completed in the collection capsule 111 as the flesh of the pork is cut off through the function of the blade 111c provided in the collection capsule 111. [

These pork DNA sampling procedures are simpler than those using existing scissors, and therefore, it is easier to collect pork DNA samples.

Then, the collection capsule 111 in which the collection of the pork DNA sample is completed is placed in the original position where the capsule cradle 113 is mounted again, and then the electric rotating device 112 is separated from the collection capsule 111 in which the re- do.

After the pork DNA sample is collected in all of the collection capsules 111 of the capsule cradle 113 through the series of processes, all of the collection capsules 111 thus collected from the pork DNA sample are collected in the capsule cradle 113 ) To allow drying of the pork DNA sample per collection capsule (111).

The cover 114 may be a capsule cradle 113 in which the collection capsule 111 is not used and a capsule capsule 111 in which the capsule poultry sample is being dried by the collection capsule 111 And covers the capsule cradle 113 and protects the capsule cradle 113 and the collection capsules 111 attached thereto from the outside.

6 and 7, only the process of combining the collection capsule 111 and the electric rotary device 112 is different, and the overall process is the same as that of FIGS. 2 to 5 and 8 9, respectively.

6 and 7, the rotational operating portion 212f of the electric rotating device 212 is rotated to enlarge the diameter of the rotational force transmitting portion composed of the three gripping pieces 212e, The engaging portion 211b of the collection capsule 211 is inserted between the enlarged three gripping pieces 212e and then the rotary operation portion 212f is operated in the opposite direction to adjust the diameter of the three gripping pieces 212e Whereby the three gripping pieces 212e can be gripped in such a manner that the stopping portion 211b of the collection capsule 211 is tightened.

When the electric rotating device 212 and the collection capsule 211 are separated from each other, the rotating operation part 212f of the electric rotating device 212 is rotated in the direction in which the diameter of the three gripping pieces 212e is increased, To separate the collection capsule 211 from the collection capsule 211.

As can be seen from the above description, the DNA sample collector according to the embodiment of the present invention uses a portable rotary drive device to collect a tube-shaped collection capsule, So that a DNA sample of the pork can be collected through a simple operation of inserting and separating the pork.

In addition, a pork DNA sample collection operation with rotation of a collection capsule using a portable rotary drive device, and a series of processes for storing a collection capsule in which the sample collection is performed can be performed in a simple continuous operation form, , It is possible to more easily collect DNA samples of pork in which a large number of individuals are slaughtered.

In addition, standardization of collection capsules and storage capsules for collection capsules is standardized, which makes it possible to easily carry, transport and store collection capsules before or after sampling, and also to efficiently store large quantities of collection capsules in less space This allows you to manage large collections capsules more efficiently.

Referring back to FIG. 1, the slaughterhouse terminal 120 reads information of the identification electronic tag 150 attached to each collection capsule 111 of the DNA sample collector 110. Here, the electronic tag 150 stores the same information as the electronic tags attached to pigs from the time when the pigs are fed, and the electronic tags 150 assigned to pigs to be raised and the electronic tags 150 Electronic tag of, but need not be.

The pork history management server 130 receives the information of the electronic tag 150 read from the slaughterhouse site terminal 120 and stores the information according to the collection capsules. Also, the pork history management server 130 generates and stores a pork distribution management application 135 including a reading function of the electronic tag.

In addition, all of the pork products produced from the slaughtered pork are affixed with an electronic tag that stores the same information as the electronic tag 150 attached to the collection capsule 111 of the DNA sampler 110, It is for the identification of the pork. Also, as mentioned above, the electronic tag 150 of the pork product and the pork product and the electronic tag 150 of the collection capsule are preferably the same kind of electronic tag, but it is not necessarily required. As the electronic tag 150, an RFID tag or an NFC tag may be used, but the present invention is not limited thereto. In this embodiment, an NFC tag is used as an example.

The portable smart device 140 downloads and installs the pork distribution management application 135 from the pork history management server 130. Then, the portable smart device 140 reads the electronic tag of the pork meat product and externally outputs the read information according to the execution of the application 145 for managing pork meat. In the present embodiment, the portable smart device 140 outputs information read from the electronic tag of the pork product through the display unit, but the present invention is not limited thereto.

In addition, the pork distribution management application 135 stored in the pork history management server 130 and the pork distribution management application 145 downloaded to the portable smart device 140 are given different codes 135 and 145 It depends on the storage location and is the same application.

Also, the portable smart device 140 is a concept including a portable terminal having a computing and communication function such as a smart phone or a tablet PC, and in this embodiment, a smart phone is taken as an example.

In addition, the portable smart device 140 has a function of synchronizing the goods abnormality information with the electronic tag information of the pork meat product through the execution of the pork meat distribution management application 145 in the event of an abnormality of the pork merchandise, To the meat history management server (130).

Next, a method of managing the history of pork using the portable smart device according to an embodiment of the present invention will be described with reference to FIGS. 10 to 11. FIG.

Prior to the description, in the embodiments of Figs. 10 to 11, the history management system for pork using the portable smart device includes a history management system 100 for pork using the portable smart device according to the embodiment of Figs. 1 to 9 Therefore, in the following description, the configuration of the pork history management system using the portable smart device is the same as the configuration of the pork history management system 100 using the portable smart device according to FIG. 1 .

FIG. 10 is a flowchart showing a history management method of pork using a portable smart device according to an embodiment of the present invention.

As shown, in step S110, an identification electronic tag is assigned to each pig being raised.

In step S120, during the slaughter of the pig to which the electronic tag is attached, the DNA sample of the pig is collected through the DNA sample collecting unit 110, and the collected capsule 111 of the pig sample And an electronic tag 150 storing the same information as the electronic tag attached to the electronic tag 150 is attached.

At step S130, the information of the identification electronic tag 150 attached to the collection capsule 111 is read through the slaughter field terminal 120. [

The electronic tag 150 information of the collection capsule 111 read from the slaughterhouse terminal 120 is transmitted to the pork history management server 130 in step S140.

In step S150, the pork history management server 130 receives and stores the information transmitted from the slaughterhouse site terminal 120, and stores the information according to the identification information of the collection capsule 111. [

Although not shown in the figure, the process of attaching an electronic tag storing the same information as the electronic tag 150 of the collection capsule 111 storing the pig's DNA sample to all the pork products produced from the pig is performed.

Thus, in step S160, the information of the electronic tag attached to the pork meat product is downloaded from the pork history management server 130 to the pork meat distribution management application 135, And is read according to the execution of the meat distribution management application 145.

In step S170, the electronic tag information of the pork meat product to which the pork meat distribution management application 145 is read is displayed on the display unit of the portable smart device 140 on the screen.

11 is a flowchart showing a process of adding a history management method for pork using the portable smart device according to FIG.

As shown in the figure, the portable smart device 140 executes the pork distribution management application 145 through step S210 to read the electronic tag of the pork product when the pork product is abnormal.

Then, in step S220, the pork distribution management application 145 running on the portable smart device 140 synchronizes the anomaly information of the corresponding pork merchandise entered into the information read from the electronic tag of the pork merchandise.

In step S230, the pork distribution management application 145 executing in the portable smart device 140 transmits the synchronized information through the communication module of the portable smart device 140 and the Internet network To the pork history management server 130 via the communication network including the "

As can be seen from the above embodiments of FIGS. 1 to 11, the system and method for managing pork history using the portable smart device according to the present invention are relatively easy to collect DNA samples from slaughtered pigs In the process, history information using the electronic tag is given to the pig-specific DNA sample in the process, and the same electronic tag information as the electronic tag information given to the pig is also given to the produced pork product, Based on the application and the smart device that can be used to manage the distribution of pork products efficiently.

In addition, when an abnormality occurs in circulating pork products or when an abnormality occurs in a breeding pig, management of pig and pork products can be performed accurately and quickly through management methods such as reverse tracking using electronic tags.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the exemplary embodiments or constructions. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Accordingly, the spirit of the present invention should not be construed as being limited to the embodiments described above, and all of the equivalents or equivalents of the claims, as well as the claims, will be included in the scope of the present invention.

100: History management system of pork
110: DNA sampler
111,211: Collection Capsule
111a: opening portion
111b, 211b:
111c and 211c:
111d and 211d:
111e: coupling groove
112,212: Electric rotating device
112a: Holding case
112b:
112c: Speed switch
112d: Operation switch
112e, 212e:
112f: battery
113: capsule holder
113a: Lower plate
113a-1: Support groove
113b: top plate
113b-1: Support hole
113c: Support
114: cover
120: Slaughterhouse terminal
130: Pork history management server
135: Application for Pork Distribution Management
140: Portable Smart Device
145: Application for Pork Distribution Management
150: Electronic tag

Claims (7)

A DNA sample sampler for collecting a DNA sample from a pig to be slaughtered after being fed with the electronic tag for identification and storing the same in a collection capsule and attaching an electronic tag of the same information as the electronic tag of the pig to the collection capsule;
A slaughter field terminal for reading information of an electronic tag attached to the collection capsule; And
And a pork history management server for receiving and storing the information of the electronic tag read by the slaughterhouse terminal and storing and sorting the collected information by the collection capsule, and producing and storing a pork distribution management application including a reading function of the electronic tag, ,
The electronic tag is attached to all the pork products produced from the pig being slaughtered for identification of the pig,
A portable smart device having an electronic tag reading of a pork meat product and an external output function of the pork meat product according to the execution of the installed pork meat distribution management application by downloading and installing the pork meat distribution management application from the pork history management server, Further comprising:
The DNA sampler is inserted into the opening of the DNA sample collecting device for the pork meat through an insertion operation in which the one side in the longitudinal direction is opened and the other side is closed tube type, And a blade having a cutting function through a twist of a fusing point for an incoming DNA sample is formed inside the closed one of the blades. The blade is perpendicular to the closed inner surface of the opposite side of the opening and extends in the direction of the opening A collection capsule in which a plate shape in which both ends are connected to the sides of the tube with reference to a direction parallel to the closed inner surface and an electronic tag for distinguishing from other collection capsules from which a DNA sample is collected, And an electric rotating device for transmitting rotational power to the other of the first and second openings, And a coupling portion for receiving a rotational force is coupled to the rotation transmitting portion of the electric rotating device. The rotating force of the electric rotating device is transmitted through the coupling portion, and the blades are rotated to rotate while rotating, Characterized in that one or more ventilation holes are formed or a porous material is used for drying flesh spots of the sample. The method according to claim 1,
The portable smart device has a function of synchronizing the item abnormality information with the electronic tag information of the pork meat product through execution of the application for management of the pork meat distribution when the pork meat product is abnormal and the function of synchronizing the information with the pork meat history management server And a function of transferring the history information of the pork to the portable smart device. The method according to claim 1,
The coupling portion formed in the collection capsule of the DNA sampler is formed with an engaging groove having an angled surface so as to rotate to prevent idling by inserting a rotational force transmitting portion of the electric rotating device,
The rotation driving device includes a rotation driving unit for generating a rotation power and transmitting rotation power generated by an angular shaft type rotation force transmitting unit inserted into a coupling groove of the collection capsule to the coupling unit through the rotation force transmitting unit, And a housing for holding the rotation driving unit to expose the angular axis area of the rotation force transmitting unit at all times or outside when the rotation driving unit is operated. The method according to claim 1,
Wherein the coupling part formed in the collection capsule of the DNA sample collector is a tap shape extending from the main body of the collection capsule into which the flesh of the pork meat is inserted,
Wherein the electric rotating device includes a rotational force transmitting part for grasping or releasing the gripping part of the nipple through a diameter change. The method according to any one of claims 1, 3, and 4,
Wherein the electric rotating device includes a speed switch for setting a rotational speed at the time of rotational driving and an operation switch for starting at the time of rotational driving. The method according to claim 1,
The DNA sample sampler comprises:
A lower plate having a plurality of support grooves for supporting a lower end of the collection capsule;
One or more supports to which one end in the longitudinal direction is coupled to the lower plate; And
And a top plate coupled to the other end in the longitudinal direction of the support plate and spaced apart from the bottom plate and having a plurality of support holes for insertion and top support of the collection capsule formed to correspond to the support grooves Wherein said smart smart device is a portable smart smart device. The method according to claim 6,
Further comprising a cover covering the capsule cradle in a state in which the capsule cradle is placed on the capsule cradle via the support groove of the lower plate and the support hole of the upper plate to block the capsule cradle from the outside, History management system.

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