KR101232517B1 - Method for manufacturing ear tag for identifyng domestic animals - Google Patents

Abstract

PURPOSE: A method for manufacturing an ear tag for recognizing a livestock entity is provided to secure cementing power between two cover units by connecting the cover units converting an antenna and a wireless communication chip set through double injection molding. CONSTITUTION: A first cover unit is processed with injection molding by using a first mold(S11). An antenna and a wireless communication chip set is attached to the inside of the first cover unit(S12). The first cover unit with the antenna and the wireless communication chip set is placed in a second mold. The second cover unit connected with the first cover unit is processed with the injection molding by using the second mold(S13). The first cover unit includes a through hole through which a male plug passes. The second cover unit includes a female unit having a space for the male plug. [Reference numerals] (AA) Start; (BB) End; (S11) Injection molding a first cover part of an ear tag using a first mold; (S12) Attaching an RFID film antenna to the inner side of the first cover part; (S13) Arranging the first cover part in a second mold and injection molding a second cover part on the inner side of the first cover part

Description

Manufacturing method of ear tag for livestock individual recognition {METHOD FOR MANUFACTURING EAR TAG FOR IDENTIFYNG DOMESTIC ANIMALS}

The present invention relates to a method for manufacturing an ear tag for animal individual recognition, and to a method for manufacturing an ear tag for animal individual recognition capable of securing a firm coupling force between two cover parts including an antenna for wireless communication and a chipset for wireless communication. will be.

In general, farms that raise livestock such as cattle and pigs attach a tag to record the information on the individual of the livestock, so as to facilitate management.

Recently, various types of tags have been developed to increase the efficiency of managing livestock individual by integrating wireless communication technology into a tag for managing livestock individual according to the development of various wireless communication technologies.

Livestock individual management technology using radio frequency identification (RFID) technology among livestock individual management technologies incorporating such wireless communication has been widely adopted based on various advantages.

RFID technology refers to a technology that recognizes information from a distance using. This requires an RFID tag and an RFID reader. The RFID tag consists of and, which write information in the integrated circuit and transmit the information to the reader through the antenna. This information is used to identify the subject to which the RFID tag is attached. In other words, RFID tag works similar to. The difference between RFIDs and bar code systems is that they use radio waves instead of light. Therefore, it does not work at short distances like a barcode reader, it can read a tag from a long distance, and it can even receive information through an object in between.

RFIDs can be classified according to the type of power they use. An RFID that reads and communicates information on a chip using only the power of a reader is called a passive RFID. Semi-passive RFIDs have a built-in battery in the tag that uses the power to read the chip's information and the reader's power to communicate. Finally, active RFID will use the power of the tag to both read the information on the chip and communicate that information.

In addition, RFID may be classified by the frequency of radio waves used for communication instead of the type of power used. LF ID using low frequency is called LF RFID (Low-Frequency IDentification) and uses 120 ~ 140 kHz radio wave. High-Frequency IDentification (HF RFID) uses 13.56 MHz, and UHF RFID (Ultra High-Frequency IDentification), which uses higher frequency, uses radio waves in the 868 to 956 MHz band. .

In the livestock individual management system employing such RFID ID technology, each livestock individual is given an RFID tag, that is, a tag having an antenna and a chipset which is an integrated circuit for RFID communication. In general, the identification tag given to the livestock is mainly attached by puncturing the ears of the livestock, which is also called an ear tag (ear tag).

The livestock individual management ear tag includes two cover portions that cover the antenna and the wireless communication chipset before and after. These two covers are joined together to protect the internal antenna and wireless chipset from disturbance. However, in a livestock farming environment such as a small barn, when the stressed livestock bites the tag or the ear tag is impacted by the collision and friction between the livestock individuals, the joint state of the two cover parts is poor or broken. Occurs.

An object of the present invention is to provide a method for manufacturing a livestock individual recognition ear tag capable of securing a firm bonding state between two cover parts including an antenna for wireless communication and a chipset for wireless communication.

As a means for solving the above technical problem, the present invention,

Providing an antenna and a chipset for wireless communication;

Injection molding the first cover part using the first mold;

Attaching the antenna and a chipset for wireless communication to an inner surface of the injection molded first cover part; And

Seating a first cover part to which the antenna and a wireless communication chipset are attached in a second mold, and injection molding a second cover part bonded to an inner surface of the first cover part by using the second mold;

It provides a method for producing an ear tag for recognizing livestock individual comprising a.

In one embodiment of the present invention, the antenna is a film antenna printed with a radiation pattern on a thin film, the wireless communication chipset may be electrically connected to the radiation pattern of the film antenna.

In one embodiment of the present invention, the wireless communication chipset may be an RFID (RFID) communication chipset.

In one embodiment of the present invention, the first cover part may include a through hole through which the mail plug passes, and the second cover part may include a female part having a space in which the mail plug is seated.

In this embodiment, the second cover portion may include a fall prevention member formed in a space of the female portion to prevent the fall off of the male plug.

In one embodiment of the present invention, the first cover portion and the second cover portion may be made of a polyurethane material.

According to the present invention, by bonding the two cover parts covering the antenna and the chipset for wireless communication by double injection molding, there is an effect that can secure excellent bonding force to the two cover parts. Through this, there is an effect that can further improve the reliability and expiration date of the ear tag for livestock individual management.

1 is a side cross-sectional view of an ear tag for recognizing livestock individual made in accordance with an embodiment of the present invention.
2 is an exploded perspective view of an ear tag for recognizing livestock individual according to an embodiment of the present invention.
3 is a flowchart illustrating a method of manufacturing an ear tag for recognizing livestock individual according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, embodiments of the present invention 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 fully describe the present invention to those skilled in the art. In addition, in describing the present invention, the defined terms are defined in consideration of the functions of the present invention, and they may be changed depending on the intention or custom of the technician working in the field, so that the technical components of the present invention are limited It will not be understood as meaning.

1 is a side cross-sectional view of an ear tag for recognizing livestock individual according to an embodiment of the present invention, and FIG. 2 is an exploded perspective view of an ear tag for recognizing livestock individual manufactured according to an embodiment of the present invention. 3 is a flowchart illustrating a method of manufacturing an ear tag for recognizing livestock individual according to an embodiment of the present invention.

With reference to FIGS. 1-3, the manufacturing method of the ear tag for livestock individual recognition which concerns on one Embodiment of this invention is demonstrated.

According to one embodiment of the present invention, a method for manufacturing an ear tag for livestock individual recognition includes an antenna 14 disposed between two cover parts 11 and 12 of an ear tag, and a chipset 15 for wireless communication. Starting from the step S11 of injection molding the first cover part 11 using the first mold.

Injection molding is a plastic material (a material that is relatively elastic among synthetic resins, and has a property of being softened by heating like a vinyl resin and having a suitable shape and then hardened by cooling) in the cylinder of the injection molding machine. It is a molding method in which it is made to fluidize by using and press-fitted into a metal mold | die with a pressure plunger.

The upper and lower molds of the mold are held together while being filled with liquefied plastic material, and then open automatically when the space inside is full. The same process can be repeated once the cooled molded product exits the mold.

The simplest type of injection molding machine may consist of a hydraulically actuated ram, one heating cylinder, and a hopper for feeding a predetermined amount of pellets of plastic material. When the plunger pushes the pellet into the cylindrical heating section under high pressure, the plastic material melts and is injected into the mold. A torpedo-shaped dispenser facilitates melting of the material and can be secured between the end of the ram and a nozzle for supplying a fluidized plastic material to the mold.

Among the methods used to facilitate preplasticization (melting and transferring the powdered material for injection molding in a separate room into the injection cylinder), a screw-shaped screw ram which can be reciprocated may be installed. A screw ram is an apparatus for forming a molten plastic material behind a nozzle by pulverizing pellets by retreating while the injection ram is retracted, melting, and preliminarily plasticizing. Then, when the rotation is stopped by the electric device, it is usually operated like a ram to inject molten material into the mold. The upper and lower molds of the mold are clamped to withstand the pressure of the plastic material injected into the mold, which is usually performed by a hydraulic ram or a hydraulically operated toggle device. The nozzle may be provided with a device for preventing leakage due to coarsening of the molten material so that a high pressure is formed before injection.

The first cover part 11 may be a cover of a side facing the body of the animal when the ear tag for animal individual recognition is attached to a part of the body of the animal. The first cover part 11 may be made of a polyurethane material, which is harmless to the livestock even when it is in contact with the body of the livestock, and is hardly deformed by direct sunlight and capable of injection molding. In addition, the first cover part 11 may include a through hole 112 so that the male plug 13 used to penetrate the livestock body to be fixed to the livestock body part can pass therethrough. A mold for injection molding the first cover part 11 may be manufactured in advance so that the first cover part 11 manufactured by injection molding may include the through hole 112.

The first cover part 11 is joined to the second cover part 12 formed thereafter, and the surface exposed to the outside after being joined is called an outer surface, and a surface facing the second cover part 12 is called an inner surface. Shall be.

Subsequently, a step S12 of attaching the antenna 14 and the wireless communication chipset 15 to the inner surface of the first cover part 11 is performed.

The antenna 14 is preferably implemented in the form of a film antenna having a very thin thickness so that it can be disposed between both cover portions (11, 12). The film antenna is an antenna having a radiation pattern 141 printed on one surface of the nonconductive film using a conductive material.

The wireless communication chipset 15 may be a radio frequency identification (RFID) communication chipset that serves as a tag of RF ID communication. The radiation pattern 141 and the wireless communication chipset 15 may form a contact point electrically connected to each other.

Subsequently, an injection molding of the second cover part 12 is performed using the second mold. The injection molding process of the second cover part 12 is not only injection of the second cover part 12 alone, but the antenna 14 and the wireless communication chipset manufactured in the above-described process at an appropriate position in the second mold. After arranging the first cover portion 11 to which the attachment (15) is attached, the material is provided to the second mold so that the second cover portion 12 is injection molded in a state in which the second cover portion 12 is bonded to the first cover portion 11. . The first cover portion 11 and the second cover portion 12 are joined using a so-called double injection molding technique.

The present invention can further strengthen the bonding between the two cover portions by applying the double injection molding bonding technique to manufacture the first cover portion 11 and the second cover portion 12 substantially in one piece. . In the conventionally applied bonding method of separately manufacturing both cover parts and bonding using an adhesive, or separately manufacturing both cover parts and fusion, the bonding part may be damaged by external force such as torsion. On the contrary, in the present invention, the first cover part 11 and the second cover part 12 are manufactured to be substantially one unitary structure by applying a double injection molding method, so that the joint breakage between both cover parts due to external force is prevented. Rarely occurs.

The second cover part 12 is joined to the first cover part 11 to form an ear tag structure for recognizing livestock individuals. The second cover part 12 may be made of a polyurethane material which is the same material as that of the first cover part 11 described above. In addition, the second cover part 12 may include a female part having a space S for seating the mail plug 13 in a region corresponding to the through hole 112 of the first cover part 11; It may include a fall prevention member 122 for preventing the falling off of the male plug. Of course, the second mold may be prefabricated in a form capable of forming the female part.

The fall prevention member 122 may be provided in the space S on which the male plug 13 is seated, and may be manufactured in the form of a funnel in which the inner diameter becomes narrower as the depth of the space S increases. An end portion of the fall prevention member 122 may have an elasticity in which the inner diameter thereof may be slightly changed by an external force. After the conical tip of the male plug 13 is inserted into the space S, the end of the fall prevention member 122 forms an inner diameter smaller than the diameter of the bottom of the conical tip so that the male plug 13 is opposite to the insertion direction. Can be prevented from falling off.

The mail plug 13 may be used to attach a structure to which the aforementioned first cover part 11 and the second cover part 12 are bonded to a body of an animal. The tip of the male plug 13 may be manufactured in a conical shape and have an easy shape for drilling a portion such as an animal's ear. In particular, the end of the conical tip of the male plug 13 may be formed of a metal material to facilitate perforation. The male plug 13 penetrates the body part of the livestock and passes through the through hole 112 of the first cover part 11 to the space S in the female part 121 of the second cover part 12. Inserted and seated. As described above, by the end of the fall prevention member 122 having an inner diameter narrower than the bottom diameter of the conical tip, the male plug 13 can be blocked from falling back from the female portion 121.

As described above, in one embodiment of the present invention, the first cover part 11 and the second cover part 12 are manufactured in one piece by applying a double injection molding bonding technique, thereby forming a gap between both cover parts. Can make the bonding of

11: first cover portion 112: through hole
12: second cover portion 121: female portion
122: fall prevention member 13: mail plug
14: film antenna 141: radiation pattern
15: Chipset for Wireless Communication

Claims (6)

Providing an antenna and a chipset for wireless communication;
Injection molding the first cover part using the first mold;
Attaching the antenna and a chipset for wireless communication to an inner surface of the injection molded first cover part; And
Seating a first cover portion to which the antenna and a wireless communication chipset are attached in a second mold, and injection molding a second cover portion bonded to an inner surface of the first cover portion using the second mold;
The first cover part includes a through hole through which the mail plug passes, and the second cover part includes a female part having a space in which the mail plug is seated, and the second cover part is formed in a space of the female part to form the mail. A method of manufacturing an ear tag for recognizing livestock individual, comprising a fall prevention member for preventing the plug from falling off. The method of claim 1,
The antenna is a film antenna with a radiation pattern printed on a thin film, the wireless communication chipset manufacturing method of the ear tag for animal individual recognition, characterized in that electrically connected to the radiation pattern of the film antenna. The method of claim 1,
The wireless communication chipset is a RFID ID chipset for producing a livestock individual recognition ear tag, characterized in that. delete delete The method of claim 1,
The first cover part and the second cover part manufacturing method of the ear tag for recognizing livestock individual, characterized in that made of polyurethane material.

Images